UA8562U - Optoelectronic module - Google Patents

Abstract

The proposed optoelectronic module contains a counting trigger, a pulse generator, an in each bit cell, a light source, a transistor, and three photodetectors. The first bit cell contains four photodetectors.

Description

Description of the invention

The useful model refers to impulse technology and can be used in computing devices and discrete automation.

A well-known optoelectronic module (a.s. USSR 978359, cl. NOZKZ2/12, 1979), which contains in each discharge connected to the power bus, a regenerative optocoupler consisting of a light source, a photoreceiver and an amplifier, in addition, each the discharge additionally contains two series-connected photodetectors, the combined terminals of which are connected to the input of the regenerative optocoupler, and the other terminals are connected to the corresponding input buses, and 70 one of them is optically connected to the light source of the previous discharge, the second to the light source of the next discharge

The disadvantage is a narrow field of application, there is no possibility of its use in the form of "running points in a ring" for demonstration scoreboards.

The closest in terms of technical essence is the optoelectronic module (a.s. USSR 957437, cl. NOZKZ2/12, 1982 r.1, 72 which contains in each i-th digit a light source, a transistor, the first photoreceptor, the second and third photoreceptors in series connection , the first terminals of which are connected to the base of the transistor, the collector of which is connected to the bus of the power source through the light source, and the emitter is connected to the common bus, the light source of the previous discharge is connected to the second photodetector of the next discharge, the light source of which is connected to the third by the photoreceptor of the previous stage, the light source of each stage is connected to the first photoreceptor of the same stage, the device also contains a digital trigger, a switch and in each stage a fourth photoreceptor, and the output of the pulse generator is connected to the input of the digital trigger, the direct output of which is connected to the switching contact of the first group of the switch, and the inverse - to the switching contact of the second group of the switch, the second output of the second photoreceiver and--o discharge n disconnected to the second output of the first photodetector of the i-th category, to the second output of the first photoreceiver of the i-th category and to the opening contact of the first switch group, the second output of the second photoreceiver of the i-th category is connected to the second output of the first photoreceiver of the i-th category, to the second terminal of the first photoreceptor of the 2nd category and to the opening contact of the second group of the switch, the second terminal of the third photoreceptor of the i-th category is connected to the second terminal of the fourth photoreceptor of the 1-1st category, to the second terminal of the fourth photoreceptor of the i-1th category discharge and to the closing contact of the second group of the switch, the first output of the fourth photodetector of the i-th discharge is connected to the base of the transistor, the second output of the third photodetector of the i-th discharge is connected to the second output of the fourth photodetector of the i-th discharge, to the second output of the fourth photoreceiver i2 th discharge, to the closing contact of the first switch group, and the light source of each o discharge is connected to the fourth photoreceptor what of the same grade. Gee)

The disadvantage is a narrow field of application, since it is impossible to implement the principle of operation in the form of 3 o "running points in a ring" for demonstration boards.

The basis of a useful model is the task of creating an optoelectronic module, in which, as a result of the introduction of new nodes and connections, the possibility of operation of the optoelectronic module in the mode of "running "points in a ring" for demonstration boards is achieved, which expands the scope of its application. 8

The task is solved by the fact that the optoelectronic module, which contains a digital trigger, a generator of 50 pulses, and each i-th discharge contains a light source, a transistor, the first photodetector, the second and third photodetectors in series connection, the first outputs of which are connected to the base transistor, the collector of which is connected to the bus of the power source through the light source, and the emitter is connected to the common bus, the light source of the previous discharge is connected to the second photoreceptor of the next discharge, the light source of which is connected to the third photoreceptor of the previous discharge , the light source of each category is connected to the first photoreceptor of the same category, and the output of the pulse generator is connected to the input of the trigger digit, the second output of the second photoreceptor of the i-th category is connected to the second output of the first photoreceptor of the 1st-1st category, 4 ! the second output of the second photodetector of the 1st digit is connected to the second output of the first photodetector of the i-th digit, to the second output of the first photodetector of the 2nd digit, an LED and a resistor are inserted, and the first b digit contains the fourth photodetector, and the direct output of the trigger is connected to bus of even pulses, and from 20 the inverse output is connected to the bus of odd pulses, the second output of the second photodetector of odd digits and the second output of the first photodetector of even digits are connected to the bus of odd pulses, and the second output of the first photodetector of odd digits and the second output of the second photodetector of even digits are connected to busses of even pulses, the second output of the third photodetector of all categories is connected to the common bus, the setting input of the device is connected to the inverse input of reset to the zero state of the trigger and to the cathode

SS o5 of the LED, the anode of which is connected to the bus of the power source through a resistor, the LED is connected to the second photoreceptor of the first category, in addition, the first output of the fourth photoreceptor of the first category is connected to the base of the transistor of this category, and its second output is connected to bus of odd pulses, the light source of the higher order is connected to the fourth photodetector of the first order, the light source of which is connected to the third photoreceiver of the higher order. 60 Fig. 1 shows the functional scheme of the optoelectronic module, Fig. 2 shows the time diagrams of its operation in the mode of information shift to the right.

The optoelectronic module (Fig. 1) contains in each i-th discharge 1.1, ..., 1.p a light source 2, the first photoreceptor 3, the second 4 and the third 5 sequentially connected photoreceptors, respectively, transistor 6. Moreover, the first outputs of the photoreceptors 3 -5 are connected to the base of the transistor 6, the collector of which is connected to the bus 7 of the power source through the light source 2, and the emitter is connected to the common bus. Light source 2 previous discharge

14-11) connected to the second photoreceptor 4 of the next stage 1.i, the light source 2 of which is connected to the third photoreceptor 5 of the previous stage 1.(i-4), the light source 2 of each stage 1.1, ..., 1 .p connected to the first photo receiver of the same category.

The output of the pulse generator 8 is connected to the digital input of the trigger 9, which has an inverse K-input 10 reset to zero, the direct output of the trigger 9 is connected to the bus 11 of even pulses, and the inverse output is connected to the bus 12 of odd pulses. In addition, the device contains a set-up input 13 of the device, an LED 14 and a resistor 15, as well as a fourth photoreceptor 16 in the first category 1.1.

The second output of the first photodetector From the odd digits 1.1, ..., 1.0-1, if n is an even number, and the second /o output of the second photodetector 4 even digits 1.2, ..., 1.1 are connected to the bus 11 even pulses, and the second output of the second photo receiver 4 and the fourth photo receiver 16 of the first category 1.1, the second output of the second photo receiver 4 of the odd categories 1.3, ..., 1.n-1 and the second output of the first photo receiver From the even categories 1.2, 2., 1.n are connected to the bus 12 odd pulses

The adjustable input 13 of the device is connected to the inverse K-input 10 of the trigger 9 and to the cathode of the LED 14, the anode /5 of which is connected through the resistor 15 to the bus 7 of the power source. The first output of the fourth photoreceptor 16 of the first category 1.1 is connected to the base of the transistor 6 of this category, and it itself is connected to the light source 2 of the senior category 1.p, in which the third photoreceptor 5 is connected to the light source 2 of the first category 1.1.

The optoelectronic module (Fig. 1) works as follows.

When power is applied to bus 7, the optoelectronic module is ready to record information. To establish the initial state, a low potential is applied to the setting input 13 of the device, while the digital trigger 9 is set to the zero state via the inverse K-input 10. As a result, a low potential is established at its direct output, and a high potential is established at the inverse one.

At the same time, a "0" is present on the cathode of the LED 14, a current flows around the bus 7 of the power source - resistor 15 - LED 14, which excites the LED 14, which, in turn, optically acts on the second photoreceptor 4 of the discharge 1.1.

When the information is shifted to the right under the action of optical communication from the LED 14 to the second photodetector 4 of category 1.1 and high potential on the bus 12 of odd pulses, the resistance of the photodetector 4 decreases sharply and as a result, the transistor 6 opens. A current flows around the collector-emitter circuit of transistor 6 - light source 2, as a result, light source 2 emits light, and the first optical connection with photodetector 4 of the next circuit 1.2, the second optical connection with photoreceptor C of this circuit 1.1 and the third optical connection with the photoreceiver 5 of the senior category 1.p. All those connections are made under the condition of the presence of a high potential on the bus 11 of even pulses, and therefore, by this time, the trigger of the digit 9 must go into the single state under the action of the synchronizing signal, which comes from the pulse generator 8 to its input of the digit.

As a result of the presence of a low potential on the bus of 12 odd pulses and a high potential on the bus of 11 even pulses, as well as the presence of corresponding optical connections, the resistance of photodetector 4 of category 1.2, photodetector C of category 1.1 and photoreceiver 5 of category 1.n simultaneously sharply decreases and opens transistor 6 of category 1.2, positive feedback is provided, because in the circle of bus 7 of the power source - photodetector Current flows from, confirming the blocking of transistor 6 of category 1.p. So, information is recorded in cell 1.2, namely, light source 2 of cell 1.2 emits light, cell 1.1 remembers Z

Information, in cell 1.p, the information, if any, is zeroed out. c With the arrival of the next synchronous signal from the pulse generator 8 to the input of the trigger digit 9, its transition to the zero state and the establishment of a high potential on the bus 12 of odd pulses and a low ;" potential on the bus is 11 even pulses. As a result, optical connections from light source 2 of category 1.2 to photoreceptor 4 of category 1.3, photoreceptor C of category 1.2 and photoreceptor 5 of category 1.1 are involved. And this, in turn, will lead to the simultaneous execution of such actions as recording information in bit 1.3, memorizing information in

Go! digit 1.2 and zeroing digit 1.1.

Analogous actions are performed with the arrival of each synchronization signal from the 8-pulse generator to the input of the digit o trigger 9. After writing information to the higher digit 1.n with the arrival of the next synchronization signal, the

Ge" simultaneous recording of information in category 1.1 by optical communication from light source 2 of category 1.p to photoreceptor 15 of category 1.1, the action of which is similar to the action of photoreceptor 4 of category 1.1 during the initial recording of information in g" optoelectronic module, memorization of information in digit 1.p, zeroing digit 1.p-1. So, in this way, the operation of the optoelectronic module is performed in the "running points in a ring" mode, and the termination of this operation is performed after removing the supply voltage on bus 7 of the power source.

From the time diagrams (Fig. 2) it can be seen that the shift of information to the right in the optoelectronic module (7 55 is performed in 27, where 7 is the activation time of one discharge. 60 b5

- | Let's drink the wine and drink the wine. EN vi vch: - ' i i: Ol 2 i i " 9 ---4--A Ti i t tli i yara ' st ' 70 i KO 1; i z i

T-4--7-7 t- a--y ' ' ' | and and! and pyninin pini pn nininini nyk kpvyi veshi kash of dreams shki you "Y "a t z . GI a. frstnn ne syavonyofuli szyoyayonyu sny - ee slo z ' gato M « ' ' i shi che t na y ' '

VE M for pen nin: nem d-- y | songs iniinij vl I m t M Y iniy,

Mtre: y Gram ry etym i -y i

KVK- - 4 i im i chi, i NI tych cha 4 i Na i a yach ni 1 x ; m ni pil chok shi same s and shk. s shk yuyu i sh-- o og

Synchroimpulses are the sleep of PP POLO

Prescriptive --------- signal (input 13) what are you looking for "I and who

Potentials on Sha in owls she shi shsh tires 11, 12 are KI 1t C eItpt

Optical output s, Fo of the LED 14 ЧО s a, po i z» a: -Shsh p

What are the optical outputs?

Olya "She

Ge") Fig. 7

Co.)

Claims (1)

The formula of the invention is an optoelectronic module that contains a digital trigger, a pulse generator, and each i-th digit contains a C;o55 light source, a transistor, the first photodetector, the second and third photodetectors in series connection, the first terminals of which are connected to the base of the transistor, the collector of which through the light source is connected to the bus of the power source, and the emitter is connected to the common bus, the light source of the previous discharge is connected to the second photoreceptor of the next discharge, the light source of which is connected to the third photoreceptor of the previous discharge, the light source of each discharge is connected to the first photodetector of the same category, and the output of the pulse generator is connected to the input of the trigger digit, the second output of the second photodetector of the i-th category is connected to the second output of the first photoreceiver of the i-1st category, the second output of the second photoreceiver of the i-1st category of the i-th category is connected to the second terminal of the first photo-receiver of the i-th category, to the second terminal of the first photo-receiver of the 2nd category, which removed in that it contains an LED and a resistor, and the first circuit contains a fourth photodetector, with the forward output of the trigger connected to the even 65 pulse bus and the inverse output connected to the odd pulse bus, the second output of the second odd photodetector and the second output of the first even photodetector are connected to the bus of odd pulses, and the second output of the first photodetector of odd digits and the second output of the second photodetector of even digits are connected to the bus of even pulses, the second output of the third photodetector of all digits is connected to the common bus, the setting input of the device is connected to the inverse reset input in the zero state of the trigger and with the cathode of the LED, the anode of which is connected to the bus of the power source through a resistor, the LED is connected to the second photodetector of the first category, in addition, the first output of the fourth photodetector of the first category is connected to the base of the transistor of this category, and its second output connected to a bus of odd pulses, jer the light source of the senior category is connected to the fourth photoreceptor of the first category, the light source of which is connected to the third photoreceptor of the senior category. 0. и и и 0. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 8, 15.08.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. what 2 s then te iv) (ee) . and? (ee) 1 (o) Ko) So 60 b5