US2307868A - Binary counter - Google Patents
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- US2307868A US2307868A US420537A US42053741A US2307868A US 2307868 A US2307868 A US 2307868A US 420537 A US420537 A US 420537A US 42053741 A US42053741 A US 42053741A US 2307868 A US2307868 A US 2307868A
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- ball
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M3/00—Automatic or semi-automatic exchanges
- H04M3/08—Indicating faults in circuits or apparatus
- H04M3/12—Marking faulty circuits "busy"; Enabling equipment to disengage itself from faulty circuits ; Using redundant circuits; Response of a circuit, apparatus or system to an error
Definitions
- This invention relates to timing mechanisms and has for its object to provide accurate and economical means for measuring time intervals of various durations.
- a feature oi the invention lies in a unitary structure for binary counting in which a plurality of units or the above type are arranged in a series, with the individual driving balls so mounted that the impact of a common driving member is transmitted through the driven balls to a particular pair of individual driving balls.
- individual impact devices may be made slow acting by interposing a link comprising a comparatively weal: spring between the actuating electromagnet and the driving member.
- Fig. 1 shows a single binary counting device
- Fig. 2 shows a slow-operating binary counting device
- Fig. 3 showsthe top view of a multiple counting device
- Fig. '4 shows a side view of the device of Fig. 3.
- FIG. 5 shows one element of the device of Fig. 3.
- Ball it! is of resilient magnetic material such as steel and therefore remains in contact with one or the other of the pole-pieces 2 or 3.
- Balls 8 and l although conveniently the same as ball 15, need not be of magnetic material.
- Fastened to springs 4 and 5 in any suitable manner are two armatures i2 and I3.
- a magnet coil It with a C-shaped core i5 is mounted in operative relation to the armatures l2 and I3.
- the device of Fig. 1 therefore forms a compact form oi pulse halver such as is used in telephone such devices controlled by timed pulses might.
- the modified form of impact relay shown in Fig. 2 employs a contact controlling member comprising a magnet 20, a resilient magnetic ball 2i mounted on a contact bearing spring 22 and two contact springs 23 and 24. These have been shown schematically and may be assembled as are the corresponding members of Fig. 1.
- the driving balls 25 and 25 are mounted at opposite ends of rod 21 which is enlarged at the center to afford a pivotal mounting 23 and a fastening point for one end of coiled spring 23.
- the opposite end of spring 29 is fastened to the armature 30 of magnet 33. Armature 30 is biased away from magnet 33 by spring and normally rests against backstop 32. y
- spring 23 requires a similar time interval to transmit the motion of armature 30 to bar 21 which, due to the inertia of balls 25and 28, r0 tates beyond the normal position shown and causes-ball'25 to impart a blow to the ball 2
- the time of operation of such a device depends upon the ratio of force applied to the driving balls to their mass, and upon the distance trav elled. Assuming a constant force rg where g is 2 the gravitational constant, the time of operation is '21? t. where S is the distance thru which the ball travels. A value of 6 for r seems practicable, so that if S is 4 cm.,
- the mechanism of Figs. 3, 4 and 5 is designed to operate a series of binary counters, such as the device of Fig. 1, by means of a single pulsing magnet, the transfer between counters being performed on the impact principle.
- a counting arrangement, employing relays, for which the mechanism of Figs. 3, 4 and 5 might be substituted, is shown in Patent No. 1,970,455, granted to H. E. Humphries, August 14, 1934.
- the mechanism comprises a plate 50 having a central rectangular opening, the edges of which are bent downward to provide brackets to which the magnetic pole-pieces 5
- a plate 50 having a central rectangular opening, the edges of which are bent downward to provide brackets to which the magnetic pole-pieces 5
- two elongated 18 presses forward the horizontal section of wire I! so that the lever arms BI and 82 formed thereon rotate around the vertical sections which are pivoted in slots 57, moving balls 83 and 84 away from the pole-pieces 5i and 52.
- the elasticity of the wire 19 causes balls 83 and 84 to snap back against the polepiece and thereby drive ball 80 from one polepiece to the other.
- ball 80 moves from one position to the other in response to each pulse received.
- the driving units may be slipped in place and when so assembled loops 10 are aligned with the driven balls when they are in their upper position.
- the lever arms 68 and'69 are of such length and angular displacement that the balls which they carry rest against the pole-pieces 5i and 52 opposite the first driven ball beyond the one against which the loop '30 rests.
- the master driving mechanism comprises a. coil ii surrounding a core 12 which is screwed to a C-shaped bracket i3 formed. at one end of frame 50.
- Coil ll controls an armature it on which are mounted two spaced balls and 36.
- Ball '55 acts on the loop ill of the first mounting wire while ball 76 acts on the loop 58 of a mounting wire 19 which is bent as shown, so that each pulse received by coil ll causes two impact operations, one under the control of wire is on ball 80 and one along the row of balls 80, 52, etc.
- the setting of the counter of Fig. 3 may be read from left to right as 0,100,000.
- Pulse number Binary notation 0 00000 1 "00001 2 00011 3 00010 4 00110 5 00111 6 00101 7 00100 3 01100 9 0110i 10 -.Gilli 1i 0lll0 12'. "01010 13 0i0il i4 0i001 15 0i000 16 "11000 What is claimed is: 1. In an impulsing device, a pulse receiving magnet, a pair of contacts and means for closing said contacts alternately under the control of said magnet, comprising a spring mounted ball having two positions of rest, means controlled by said ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to said ball in either position to drive it into its alternate position.
- a pulse receiving coil comprising a spring mounted ball of resilient magnetic material, magnetic means for holding said ball in either of two positions of rest to close one of said contacts in each of said positions and means controlled by said coil for delivering an impact to said ball in either position to drive it into its alternate position to close the other of said contacts.
- a pulse divider comprising a pulse receiving magnet, a pair of contacts and means for closing said contacts alternately in response to the energization of said magnet by successive pulses comprising a spring mounted ball having two positions of rest, means controlled by said ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to said ball in either position to drive it into its alternate position.
- a pulse divider comprising a pulse receiving coil, 9. pair of contacts and means for closing said contacts alternately in response to the energization of said coil by successive pulses comprising a spring mounted ball of resilient magnetic ma terial, magnetic means for holding said ball in either of two positions of rest to close one of said contacts in each of said positions and means controlled by said coil for delivering an impact to said ball in either position to drive it into its alternate position to close the other of said contacts.
- a pulse divider comprising a pulse receiving coil, 9. pair 01' contacts and means for closing said contacts alternately in response to the energizations of said coil by successive pulses, comprising a U-shaped magnet, a plurality of contact carrying springs held between the arms of said magnet,'a driven ball of resilient magnetic material mounted on one of said springs, said ball normally resting in either one of two positions of rest against either arm of said magnet to cause said one spring to close a corresponding contact, a pair of driving balls, springs for holding said bails outside said magnet arms and in alignment with said driven ball, and armatures attached to said last-mentioned springs, consaid ball of said 7.
- a pulse receiving magnet a pair of contacts and means for closing said contacts alternately under the control of said magnet, comprising a spring mounted ball having two positions of rest, means controlled by said ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to said ball in either position to drive it into its alternate position, said controlled means comprising an armature for said magnet, a balanced hammer and a weak spiral spring connecting said armature and said hammer for rendering said hammer slow to respond to said magnet.
- a pulse receiving magnet a plurality of pairs of contacts, means for closing said contacts under the control of said magnet, comprising a row of spring mounted balls each having two positions of rest, means controlled by each ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to any one of said balls in either position to drive it into its alternate position, said controlled means comprising pairs of hammers held in transverse impacting relation with each ball, means for delivering an impact longitudinally of said row of balls and means for transforming said longitudinal impact into a transverse im-' pact by one of said pairs of hammers.
- a pulse receiving magnet a plurality of pairs of contacts, means for closing said contacts under the control of said magnet, comprising a row of spring mounted balls each having two positions of rest, means controlled by each ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to any one of said balls in either position to drive it into its alternate position, said controlled means comprising pairs of hammers held in transverse impacting relation with each ball, means for delivering an impact longitudinally of saidrow of balls, spring mounting means for each of said pairs oihammers for transforming said longitudinal impact into a transverse impact by one of said pairs 01 hammers, said balls eifective in oneposition of rest to transmit said impact longitudinally and in the other position of rest to select a pair of hammers.
- a pulse receiving magnet a plurality of pairs of contacts, means for closingsaid contacts under the control of said magnet, comprising arrow of spring mounted balls each having two positions of rest, means controlled by each ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact .to' any one of said balls in either position to drive it into its alternate position, said controlled means comprising pairs of hammers held in transverse impacting relation with each ball, means for delivering an impact longitudinally of said row of balls, spring mounting means for pairs of hammers for transforming i 'nmers. said balls eflect to t said im-
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Description
Jan. 12, 1943. G. R. STIBITZ 2,307,868
BINARY COUNTER Filed Nov. 26, 1941 FIG. 3
66 Z 67 58 FIG I 69 J/ J s5 5a G N2 am" 4 5 52'-/ 8 6/ Fflf /4 INVENTOR By GRST/B/TZ Patented Jan. 12, 1943 BINARY COUNTER George B. Stibitz, Boonton, N. 3., assignor to Bell Telephone Laboratories, Incorporated,
New York, N. Y., a corporation of New York Application November 26, 1941, Serial No. 420,537
Claims.
This invention relates to timing mechanisms and has for its object to provide accurate and economical means for measuring time intervals of various durations.
In U. 8. Patent No. 2,292,489, granted August 11, 1942, the present inventor has disclosed a counting arrangement in which a series of resiliarm by the impact of a similar ball on the arm of the magnet along the axis orcontact of the In accordance with the present invention a binary counting means is provided, wherein a single ball, mounted within a magnet and normally resting against one arm 01' the magnet, is driven from side to side in response to successive impacts delivered by two simultaneously actuated balls, the driven ball controlling a pair 01 contacts.
A feature oi the invention lies in a unitary structure for binary counting in which a plurality of units or the above type are arranged in a series, with the individual driving balls so mounted that the impact of a common driving member is transmitted through the driven balls to a particular pair of individual driving balls.
According to a further, feature or the invention, individual impact devices may be made slow acting by interposing a link comprising a comparatively weal: spring between the actuating electromagnet and the driving member.
These and other features of the invention will be more apparent from a consideration of the following description in' connection with the drawing in which:
Fig. 1 shows a single binary counting device,
Fig. 2 shows a slow-operating binary counting device,
Fig. 3 showsthe top view of a multiple counting device,
Fig. '4 shows a side view of the device of Fig. 3; and
-Fig. 5 shows one element of the device of Fig. 3.
insulating material and held in place by screws H. Ball it! is of resilient magnetic material such as steel and therefore remains in contact with one or the other of the pole-pieces 2 or 3. Balls 8 and l, although conveniently the same as ball 15, need not be of magnetic material. Fastened to springs 4 and 5 in any suitable manner are two armatures i2 and I3. A magnet coil It with a C-shaped core i5 is mounted in operative relation to the armatures l2 and I3.
When poll it is energized and armatures l2 and i3 are drawn toward the pole-pieces of core l5, balls 6 and 1 are swung away from pole-pieces 2 and 3. Deenergization of coil 14 as by a dial pulse permits balls 6 and 1 to strike against polepieces 2 and 3. If ball I0 is in the position shown, the impact by ball 1 is ineflectlve, but the impact by ball 6 is communicated to ball it which moves toward pole-piece 3 where it is held by the magnetic attraction. As 'ball I moves, it opens the contact between springs l3 and 8 and closes one between springs l6 and 9.
The device of Fig. 1 therefore forms a compact form oi pulse halver such as is used in telephone such devices controlled by timed pulses might.
also be used in such circuits for trouble timing operations.
The modified form of impact relay shown in Fig. 2 employs a contact controlling member comprising a magnet 20, a resilient magnetic ball 2i mounted on a contact bearing spring 22 and two contact springs 23 and 24. These have been shown schematically and may be assembled as are the corresponding members of Fig. 1. The driving balls 25 and 25 are mounted at opposite ends of rod 21 which is enlarged at the center to afford a pivotal mounting 23 and a fastening point for one end of coiled spring 23. The opposite end of spring 29 is fastened to the armature 30 of magnet 33. Armature 30 is biased away from magnet 33 by spring and normally rests against backstop 32. y
when magnet 33 is energized, the motion or armature 30 is communicated to spring 29 which in turn causes bar 21 to rotate about pivot 23 and, after a time interval determined by the strength of spring 29 and length of path travelled by ball 26, causes ball 26 to strike against the lower leg of magnet 20 and drive ball 2| to its alternate position. As this occurs in response to the first blow by ball 26, any further impacts due to the resilience of ball 26 and magnet 20 will be ineilective. On the release of magnet 33, spring 23 requires a similar time interval to transmit the motion of armature 30 to bar 21 which, due to the inertia of balls 25and 28, r0 tates beyond the normal position shown and causes-ball'25 to impart a blow to the ball 2| through the upper leg of magnet 20, restoring ball 2i to its lower position.
The time of operation of such a device depends upon the ratio of force applied to the driving balls to their mass, and upon the distance trav elled. Assuming a constant force rg where g is 2 the gravitational constant, the time of operation is '21? t. where S is the distance thru which the ball travels. A value of 6 for r seems practicable, so that if S is 4 cm.,
or aboutwatt-seconds. This is approximately the energy stored by 1 microfarad at 50 volts, and is suflicient, in the present model, to
break about 200 grams of contact pressure and produce about mils of contact travel.
Since the time of operation depends only on masses, dimensions and spring stiffness, time could be measured very accurately with such a relay.
The mechanism of Figs. 3, 4 and 5 is designed to operate a series of binary counters, such as the device of Fig. 1, by means of a single pulsing magnet, the transfer between counters being performed on the impact principle. A counting arrangement, employing relays, for which the mechanism of Figs. 3, 4 and 5 might be substituted, is shown in Patent No. 1,970,455, granted to H. E. Humphries, August 14, 1934.
The mechanism comprises a plate 50 having a central rectangular opening, the edges of which are bent downward to provide brackets to which the magnetic pole-pieces 5| and 52 of permanent magnet 54 are fastened by screws 53. On the upper face of plate 50 and parallel with the pole pieces 5| and 52 are arranged two elongated 18 presses forward the horizontal section of wire I! so that the lever arms BI and 82 formed thereon rotate around the vertical sections which are pivoted in slots 57, moving balls 83 and 84 away from the pole-pieces 5i and 52. At the end oi the impact, the elasticity of the wire 19 causes balls 83 and 84 to snap back against the polepiece and thereby drive ball 80 from one polepiece to the other. Thus ball 80 moves from one position to the other in response to each pulse received.
Assuming that the balls 80, 59, etc. are in the position shown. the efl'ect of the impact of bail I5 against the first loop 70 is to transmit the impact through all of the balls in the upper position and the intervening loops Ill as far as ball 85. Since ball 86 is in its lower position ball 85 attempts to move toward the left and in so doing blocks of material and 56 having spaced slots 51 in their inner faces. These blocks are held in place by screws 58. Between pole-pieces 5i and 52 are arranged a series of balls such as ball '59 each with its mounting spring 60 and associsponding slots 51 in blocks 55 and 56, and two lever arms 68 and 69 which carry the balls 63 and 64. At one side of the center of the horizontal section is formed a loop 10. The driving units may be slipped in place and when so assembled loops 10 are aligned with the driven balls when they are in their upper position. The lever arms 68 and'69 are of such length and angular displacement that the balls which they carry rest against the pole-pieces 5i and 52 opposite the first driven ball beyond the one against which the loop '30 rests.
The master driving mechanism comprises a. coil ii surrounding a core 12 which is screwed to a C-shaped bracket i3 formed. at one end of frame 50. Coil ll controls an armature it on which are mounted two spaced balls and 36. Ball '55 acts on the loop ill of the first mounting wire while ball 76 acts on the loop 58 of a mounting wire 19 which is bent as shown, so that each pulse received by coil ll causes two impact operations, one under the control of wire is on ball 80 and one along the row of balls 80, 52, etc.
The effect of the impact of ball 16 against loop presses against the loop '10 of wire 89, moving balls 81 and 88 away from the pole-pieces. When the impact ceases balls at and 88 strike against the pole-pieces driving ball 90 to its lower a position.
When the next impulse is received, ball 80 is in its lower position and the impact of ball 15 against wire 55 causes driving balls 63 and 64 to act on ball 59 to move it to its lower position. This same impulse restores ball 80 to its upper position.
Therefore a third pulse will act through ball f0 pulse 2 moves ball 95. However it requires 4 pulses to move ball 91 to its alternate position, 8
puisesto move ball 98. 16 pulses for ball 85, 32 pulses for ball 88 and 64 pulses for ball 90.
A clearer idea of the position of the balls after each pulse will be obtained if the set of balls is represented by a number having a similar number of digits, each of which may have one of two arbitrary values, for example 0 and l. If the upper position is called 0 and the lower position,
' i, then the setting of the counter of Fig. 3 may be read from left to right as 0,100,000. I
Following is a translation of the number of pulses received into this form of binary notation for the first sixteen pulses as received on the first vfive balls.
Pulse number: Binary notation 0 00000 1 "00001 2 00011 3 00010 4 00110 5 00111 6 00101 7 00100 3 01100 9 0110i 10 -.Gilli 1i 0lll0 12'. "01010 13 0i0il i4 0i001 15 0i000 16 "11000 What is claimed is: 1. In an impulsing device, a pulse receiving magnet, a pair of contacts and means for closing said contacts alternately under the control of said magnet, comprising a spring mounted ball having two positions of rest, means controlled by said ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to said ball in either position to drive it into its alternate position.
2.In an impulsing device, a pulse receiving coil, a pair of contacts and means for closing said contacts alternately under the control of said coil, comprising a spring mounted ball of resilient magnetic material, magnetic means for holding said ball in either of two positions of rest to close one of said contacts in each of said positions and means controlled by said coil for delivering an impact to said ball in either position to drive it into its alternate position to close the other of said contacts.
3. A pulse divider comprising a pulse receiving magnet, a pair of contacts and means for closing said contacts alternately in response to the energization of said magnet by successive pulses comprising a spring mounted ball having two positions of rest, means controlled by said ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to said ball in either position to drive it into its alternate position.
4. A pulse divider comprising a pulse receiving coil, 9. pair of contacts and means for closing said contacts alternately in response to the energization of said coil by successive pulses comprising a spring mounted ball of resilient magnetic ma terial, magnetic means for holding said ball in either of two positions of rest to close one of said contacts in each of said positions and means controlled by said coil for delivering an impact to said ball in either position to drive it into its alternate position to close the other of said contacts.
5. A pulse divider comprising a pulse receiving coil, 9. pair 01' contacts and means for closing said contacts alternately in response to the energizations of said coil by successive pulses, comprising a U-shaped magnet, a plurality of contact carrying springs held between the arms of said magnet,'a driven ball of resilient magnetic material mounted on one of said springs, said ball normally resting in either one of two positions of rest against either arm of said magnet to cause said one spring to close a corresponding contact, a pair of driving balls, springs for holding said bails outside said magnet arms and in alignment with said driven ball, and armatures attached to said last-mentioned springs, consaid ball of said 7. In an impulsing device, a pulse receiving magnet, a pair of contacts and means for closing said contacts alternately under the control of said magnet, comprising a spring mounted ball having two positions of rest, means controlled by said ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to said ball in either position to drive it into its alternate position, said controlled means comprising an armature for said magnet, a balanced hammer and a weak spiral spring connecting said armature and said hammer for rendering said hammer slow to respond to said magnet.
8. In an impulsing device, a pulse receiving magnet, a plurality of pairs of contacts, means for closing said contacts under the control of said magnet, comprising a row of spring mounted balls each having two positions of rest, means controlled by each ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to any one of said balls in either position to drive it into its alternate position, said controlled means comprising pairs of hammers held in transverse impacting relation with each ball, means for delivering an impact longitudinally of said row of balls and means for transforming said longitudinal impact into a transverse im-' pact by one of said pairs of hammers.
9. In an impulsing device, a pulse receiving magnet a plurality of pairs of contacts, means for closing said contacts under the control of said magnet, comprising a row of spring mounted balls each having two positions of rest, means controlled by each ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact to any one of said balls in either position to drive it into its alternate position, said controlled means comprising pairs of hammers held in transverse impacting relation with each ball, means for delivering an impact longitudinally of saidrow of balls, spring mounting means for each of said pairs oihammers for transforming said longitudinal impact into a transverse impact by one of said pairs 01 hammers, said balls eifective in oneposition of rest to transmit said impact longitudinally and in the other position of rest to select a pair of hammers.
10. In an impulsing device, a pulse receiving magnet, a plurality of pairs of contacts, means for closingsaid contacts under the control of said magnet, comprising arrow of spring mounted balls each having two positions of rest, means controlled by each ball for closing one of said contacts in each of said positions and means controlled by said magnet for delivering an impact .to' any one of said balls in either position to drive it into its alternate position, said controlled means comprising pairs of hammers held in transverse impacting relation with each ball, means for delivering an impact longitudinally of said row of balls, spring mounting means for pairs of hammers for transforming i 'nmers. said balls eflect to t said im-
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US420537A US2307868A (en) | 1941-11-26 | 1941-11-26 | Binary counter |
Applications Claiming Priority (1)
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US420537A US2307868A (en) | 1941-11-26 | 1941-11-26 | Binary counter |
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US2307868A true US2307868A (en) | 1943-01-12 |
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US420537A Expired - Lifetime US2307868A (en) | 1941-11-26 | 1941-11-26 | Binary counter |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2436178A (en) * | 1943-10-21 | 1948-02-17 | Rca Corp | Electronic computer for transforming polar into rectilinear coordinates |
US2452568A (en) * | 1943-10-01 | 1948-11-02 | Bell Telephone Labor Inc | Switching device |
US2539623A (en) * | 1947-02-12 | 1951-01-30 | Bell Telephone Labor Inc | Communication system |
US2618718A (en) * | 1949-10-31 | 1952-11-18 | Siemens Ag | High-speed electric switching apparatus |
-
1941
- 1941-11-26 US US420537A patent/US2307868A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2452568A (en) * | 1943-10-01 | 1948-11-02 | Bell Telephone Labor Inc | Switching device |
US2436178A (en) * | 1943-10-21 | 1948-02-17 | Rca Corp | Electronic computer for transforming polar into rectilinear coordinates |
US2539623A (en) * | 1947-02-12 | 1951-01-30 | Bell Telephone Labor Inc | Communication system |
US2618718A (en) * | 1949-10-31 | 1952-11-18 | Siemens Ag | High-speed electric switching apparatus |
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