1KLA7 (1КЛА7), full partnumber 564LA7 (564ЛА7), is a quad 2-input NAND gate. 590KN2 (590КН2) is a quad analog switch (voltage range from -10 to 10 VDC).
Thank you for the teadown. It looks like when this board was designed, the bipolar transistor was still a new thing and tubes were here to stay. I have studied a few cold war-era electronic books and they have quite a few mistakes. They had a few good DDR engineers and don't want to take anything away from them but the few URSS people thar could design, code or jump emigrated early on. Source: I lived under the friendly bear protection.
So, this board is one small piece from an antiaircraft missile Buk. There are dozens if not hundreds of other boards in the missile, including a computer, some microwave circuits, etc. The particular model of the missile which this board came from was designed in 1990s, which was the lowest point for the Russian industry. The companies were not getting any orders, and the workers were literally not getting paid for months in a row. Crime and poverty were all around. This may in part be an explanation for why this board looks substandard compared to even the older USSR military hardware. But whatever its deficiencies, the rocket must have passed the tests and it had been in production at least up to 2013, the year when this board was made, and possibly much longer.
Да классика 90х-нулевых. Эта хрень всплывает периодически, в защиту скажу что британские ракеты тоже большой мем о том как разводят чукотских юношей на агитку. Просто эта фигня скорее всего прошла весь цикл испытаний, а требования к плате по ходу были достаточно низкие. Оно летит, поражает цель, иногда ломается и тогда достают еще пару ракет, все равно их делают массово. Для носителя ядерного оружия требования сильно проще, как у точки-у КВО было 3км, но плевать потому что ядерный взрыв примерно где и надо. В военке требования о высокоточности это сравнительно недавняя тема, те кто наводят цель порой сами представления имеют о том чтоб пульнуть где-то в той стороне или где-то в том районе. Иногда надо попасть по мосту или по зданию, тогда уже вот да. Конкретно эта плата явно делалась просто вчерашним студентом и прошло испытания.
@@ДаудМухамеджанов, да как сказать, про "". Первые эксперименты с управляемыми боеприпасами начались в конце Второй Мировой войны. Немецкий "", американский "", то, что вспомнилось сразу. Понятно, что автономные системы наведения набрали популярность гораздо позже, но высокоточное оружие это ни разу не недавнее изобретение. Вояки о нём мечтают испокон веков. Что касается "". Может быть оно и так, лишь выполняла свою функцию, но чёрт побери, технологичность! Её изготовление это же настоящий кошмар! Жгут непонятный, изолента, стяжки, поточечная пайка... Масса ненужных ручных операций, каждую из которых можно сделать через одно место и сломать всё изделие целиком. С другой стороны, если переделать этот узел, то наверняка зацепит и соседние, придётся перебирать и их "ripple effect". В результате придётся переделать чуть ли не всю начинку. Поэтому "работает - не трогай".
Another interesting item and excellent video. "The Kh-101 (Russian: Х-101; NATO reporting name: AS-23 "Kodiak") is a Russian subsonic air-launched cruise missile. Designed in the 1990s, it underwent testing in the 2000s and entered service in the 2010s, seeing use in the Syrian Civil War and the Russian invasion of Ukraine." So it's recent missile. 7 meters long. 3,500km range. Guidance system is inertial guidance with Doppler radar/terrain map updates.. Can have conventional or nuclear payload. 2,400kg weight.
Very interesting stuff. I do wonder what the board is used for, all the different blocks are too generic to really tie any leads to. By the way, which of the blocks was under the shield? I presume the oscillator?
Yes, it was the oscillator. I don't know why, the power is quite small and the frequency not too high. It is the same for the guarding tracks, totally useless with the resistance values used in that circuit, when the guarding tracks are correctly placed.
@@lelabodemichel5162they have a lot of these. Even a practice of using connectors is kinda difficult to convincing people. This wire harness is actually reliable, but require a lot of manual labour. But who cares? A couple of extra women will get a stable job on a military factory.
On one hand, it really looks like the home project of a not very skilled amateur. But on the other hand, if it does its job, the look does not really matter. What's more important is that the production of these pieces of hardware does not require the sophisticated production lines and well-trained personnel. Everyone forgot, but in the case of the real war, not a proxy conflict somewhere overseas, the high-quality professionals quickly become a very scarce resource. And you will have to do the job with the people you have right here and right now. And without skilled personnel, the advanced machinery quickly degrades. Will it be possible to reproduce the production cycle with just that? What will be the time lag before the "downgraded" production lines start producing enough lower-tier munition? So the "Russian", "Iranian", "North Korea" technologies are worth not joking about, but analysis. Because it is quite possible that, in the end, all the war participants would use something like that.
The fact that the circuit board is made using cheaper technology does not make the missile any less lethal. Also, this part of the circuit does not have high-speed or high-frequency interfaces, which made it possible to make it on such a simple printed circuit board.
A samurai without a sword is like a samurai with a sword, but without a sword. A PCB without a mask is similar to a PCB with a mask, but without the mask. :)
Nice video! I am very interested in how you acquire such hardware, i myself am very interested in seekers and imaging sensors from missiles or aircraft and i know nothing about how to get my hands on these.
Incredibly high-quality review of the board . The wires attached to the diagram are called MGTF, copper flexible wire in heat-resistant insulation. I wonder what the decimal number 7.108 means... In any case, military acceptance in a fairly good performance. but long outdated as one of the guidance and flight control systems. More such reviews, Thank you Michael for your work! We are waiting for a review of the boards from the optical gyroscope.
All military PCBs in Russia must have a code formatted in accordance to the federal regulations. The code on this board is not in the correct format. Despite that, this is certainly a Russian-made military PCB. All of the components are very expensive, military grade items. The smallest chips cost $10-30 and are hand-made and individually tested.
А вот это точно наша плата! Бескомпромиссная лапша МГТФ провода в синей изоленте, налепленная прям на плату 😁😁😁 Изящно, просто. Коннекторы для слабаков!!!
Did you look for it on Wiki or Google? "The Kh-101 (Russian: Х-101; NATO reporting name: AS-23 "Kodiak") is a Russian subsonic air-launched cruise missile. Designed in the 1990s, it underwent testing in the 2000s and entered service in the 2010s, seeing use in the Syrian Civil War and the Russian invasion of Ukraine." So it's recent missile. 7 meters long. 3,500km range. Guidance system is inertial guidance with Doppler radar/terrain map updates.. Can have conventional or nuclear payload. 2,400kg weight.
@@Google_Does_Evil_Now Je savais que les russes étaient en retard sur l'électronique de manière générale mais à ce point quand même je ne l'imaginais pas
C'est vrai que la technique utilisée est un peu vieillotte, il utilise même une centrale inertielle mécanique style années 60 ou 70. t.me/ministry_of_defense_ua/1353
The date on the PCB is 5/7/13. Russians focus on reliability both in manufacturing and in operation. This tech offers both reliable manufacturing and operation.
@@lelabodemichel5162 honnêtement, j'ai du mal à croire qu'une centrale inertielle mécanique permettre la précision observée sur ces missiles. Le guidage inertiel moderne utilise un filtrage de Kalman pour faire de la fusion de données INS/GNSS, qui me semble difficile à obtenir avec une INS mécanique. Qu'est ce qui vous permet d'être raisonnablement sûr que cette carte vient d'un KH-101 ?
@@lelabodemichel5162 Thank you so much. I will tell you the thing with these guarding tracks connected to the opamp output in the inverting configuration and not to the ground. In the schools of eastern europe they teach that the virtual earth point (after the input resistor) has some resistance as well, and if some noise will be picked up by this point it will be hugely amplified by the feedback resistor. The signal that comes from opamp output that is inverted is meant to keep the noise level at minimum because if any gain of such noise will occur at the opamp output, it will be effectively attenuated, as it is the same noise as at the virtual earth point but inverted, and that would be the effect of capacitive coupling between the guard track and earth point. If connected to ground, still the common mode noise could be amplified but not attenuated then, and if any noise will be picked up by the ground it could be easily translated to the opamp output causing errors. It is another thing if by these impedances that theory is valid but this is how mostly the russian engineers are trained.
A guarding has nothing to do with noise. It permits to avoid leakage currents due to pollution on the board. Leakage currents return to the guarding track and not to the sensitive track. If you have a voltage present between the guarding track and the track itself it will increase dramatically this leakage current. Difference of potential should be minimum. Furthermore on that board you have all combinations, you don't have the same guarding track connection for same configuration. Anyway guarding tracks are not required with such resistors values.
To be fair, this board is the trailing edge even for Russian military electronics. The majority of boards from Kh-101, the pictures of which one can find on-line, are much more modern.
@@mortlet5180 Sure. Wreckage of Russian missiles from Ukraine had been publicly exhibited, and there are plenty of pictures from these exhibitions. Some with labels explaining a little bit what the hardware is. There are also many other publications, with a particular focus on Western components in Russian military hardware. Ukrainian Institute of Forensic Science has been collecting specimens of Russian military hardware, and I assume they and other similar organizations publish reports on it. Some of the best pictures came from them, but full reports are probably not public. They had a few general videos about their work though.
@@milaro222 According to the official history of the project published by the developer: "By the Decree of the Central Committee of the Communist Party of Soviet Union and the Council of Ministers of USSR of October 18, 1990, the SAM "Buk-M2" was accepted into service, and the terms for its serial production were set. It became one of the last weapon models, the development of which was successfully completed before the collapse of the Soviet Union. Serial production of the "Buk" of the third generation never began. In the 1990s, only the 9M317 missile was mastered in serial production"
Советская школа: условие необходимости и достаточности выполнено. Чем проще - тем надежнее. Плата на качественном текстолите, ручная сборка, высококачественные комплектуюшие + покрытие лаком. ❤❤❤❤❤❤❤
I did that in 1979 on a test sample (gosudarstvennoje ispitaniye). TTL logic was copied by then and approved for military purposes in USSR. It was series 155 (5V) Complementary (series 176) was not approved by KGB at the time although we loved it for civilian aplications..
With pens, nail lacquer and Fe my 2 fellas and me designed and produced 16 channel audio MUX console (with 5 band graphic EQ), not a marketable piece, although pretty good for our shitty garage band.. ballanced inputs, measured -96d plus inputs. Year 1982, probably. Almost every part/element except plywood carcas was somewher stolen and bought/traded by us.
@@IndulisBeisans In 1989 we had first IBM PCs with i8088 and DOS 3.3 for development in university. We used first microcontrollers (8051) in our design and of course we used analog computing for labs :)
Такой чип спокойно летит мимо вместе с ракетой в супермаркет например среди белого дня и без сбития. Или в Охматдет где онко больные дети , или тебя больше интересуют унитазы и стиралки?
@@КонстантинЛетов-у6р Да,украинцы пытаются сбивать разные артефакты,и часто попадают в свои дома Такая статистика Поражения от 300-500 кг БЧ отличаются от ракет Бук
Capacitors are not the same than TVs or video machines. It is a wet tantalum, K52-1B type: elecond.ru/pdf/k52-1b_en.pdf The storageability is an important parameter, 20 years for this one.
I was expecting the testing to include a missile launch!! Seriously though, very interesting video, but this board looks very amateurish for even the 1990s.
Это такая военка на расии что бы ты понимал) Военка выпущенная в рфии может даже по своим гэпнуть нехило, как в Курской области. Зачем вы вообще своих бомбите?🤣
How are you sure this is from KH101?
After some researches it is from a 9E420 radar seeker, 9M317 missile and probably others.
It is from a Buk system, likely a semi active radar seeker from the 70's.
Х101 примерно на пару поколений позже(2010,с учётом разработки 80-90)
@@0MoTheGвозможно,чуть позже,начало 80х(само производство)
The dial inductance test equipment is really neat! I've never seen one of those.
General Radio type 107-K, I have the 107-L model also. See page 43:
www.ietlabs.com/pdf/GR_Catalog/GenRad_CatG1_1932.pdf
Thats impressive reverse engineering, that must have taken some time for sure, very interesting thank you
That is one funny looking module, well thanks to its ruggedness, it survived a blast, one way or another I'm impressed. :P
1KLA7 (1КЛА7), full partnumber 564LA7 (564ЛА7), is a quad 2-input NAND gate.
590KN2 (590КН2) is a quad analog switch (voltage range from -10 to 10 VDC).
I found all datasheets. The part 1KLA7 is identical to 564LA7 and is a quad NAND gate.
Thank you for the teadown. It looks like when this board was designed, the bipolar transistor was still a new thing and tubes were here to stay. I have studied a few cold war-era electronic books and they have quite a few mistakes. They had a few good DDR engineers and don't want to take anything away from them but the few URSS people thar could design, code or jump emigrated early on. Source: I lived under the friendly bear protection.
Видел германиевые транзисторы середины 50х,в 60-70х микромодули и гибридные микросхемы
Amazing DIY for deadly weapons, probably because the X101 is an upgrade of the X-55 missile from the 1970s.
So, this board is one small piece from an antiaircraft missile Buk. There are dozens if not hundreds of other boards in the missile, including a computer, some microwave circuits, etc.
The particular model of the missile which this board came from was designed in 1990s, which was the lowest point for the Russian industry. The companies were not getting any orders, and the workers were literally not getting paid for months in a row. Crime and poverty were all around. This may in part be an explanation for why this board looks substandard compared to even the older USSR military hardware.
But whatever its deficiencies, the rocket must have passed the tests and it had been in production at least up to 2013, the year when this board was made, and possibly much longer.
Синяя изолента!
Ракета носитель ядерки 😂
Да классика 90х-нулевых.
Эта хрень всплывает периодически, в защиту скажу что британские ракеты тоже большой мем о том как разводят чукотских юношей на агитку.
Просто эта фигня скорее всего прошла весь цикл испытаний, а требования к плате по ходу были достаточно низкие.
Оно летит, поражает цель, иногда ломается и тогда достают еще пару ракет, все равно их делают массово.
Для носителя ядерного оружия требования сильно проще, как у точки-у КВО было 3км, но плевать потому что ядерный взрыв примерно где и надо.
В военке требования о высокоточности это сравнительно недавняя тема, те кто наводят цель порой сами представления имеют о том чтоб пульнуть где-то в той стороне или где-то в том районе.
Иногда надо попасть по мосту или по зданию, тогда уже вот да.
Конкретно эта плата явно делалась просто вчерашним студентом и прошло испытания.
@@ДаудМухамеджанов каких нулеввых, начало 80х.
@@ДаудМухамеджанов, да как сказать, про "". Первые эксперименты с управляемыми боеприпасами начались в конце Второй Мировой войны. Немецкий "", американский "", то, что вспомнилось сразу. Понятно, что автономные системы наведения набрали популярность гораздо позже, но высокоточное оружие это ни разу не недавнее изобретение. Вояки о нём мечтают испокон веков.
Что касается "". Может быть оно и так, лишь выполняла свою функцию, но чёрт побери, технологичность! Её изготовление это же настоящий кошмар! Жгут непонятный, изолента, стяжки, поточечная пайка... Масса ненужных ручных операций, каждую из которых можно сделать через одно место и сломать всё изделие целиком.
С другой стороны, если переделать этот узел, то наверняка зацепит и соседние, придётся перебирать и их "ripple effect". В результате придётся переделать чуть ли не всю начинку. Поэтому "работает - не трогай".
Oof. That thing was in rough shape before it exploded.
The amateurism in the construction of this board is mind blowing! we used to do better than that when we were high school students.
Another interesting item and excellent video.
"The Kh-101 (Russian: Х-101; NATO reporting name: AS-23 "Kodiak") is a Russian subsonic air-launched cruise missile. Designed in the 1990s, it underwent testing in the 2000s and entered service in the 2010s, seeing use in the Syrian Civil War and the Russian invasion of Ukraine."
So it's recent missile.
7 meters long.
3,500km range.
Guidance system is inertial guidance with Doppler radar/terrain map updates..
Can have conventional or nuclear payload.
2,400kg weight.
Система управления из 2-3 стадий полёта,с возможностью менят конечный адрес
Выпускается сотнями в год
[Вики]
Very interesting stuff. I do wonder what the board is used for, all the different blocks are too generic to really tie any leads to.
By the way, which of the blocks was under the shield? I presume the oscillator?
Yes, it was the oscillator. I don't know why, the power is quite small and the frequency not too high. It is the same for the guarding tracks, totally useless with the resistance values used in that circuit, when the guarding tracks are correctly placed.
I don't think so, it can be used for so many different things. I don't know how many boards are present on that missile, it should be impressive.
@@lelabodemichel5162they have a lot of these. Even a practice of using connectors is kinda difficult to convincing people.
This wire harness is actually reliable, but require a lot of manual labour. But who cares?
A couple of extra women will get a stable job on a military factory.
I was thinking of the proximity fuse : this frequency can be use to generate the pulses of the high frequency radar?
Thank you; gems decoded - still way above my pay scale but I can appreciate the wizardry required to do this.
On one hand, it really looks like the home project of a not very skilled amateur. But on the other hand, if it does its job, the look does not really matter.
What's more important is that the production of these pieces of hardware does not require the sophisticated production lines and well-trained personnel. Everyone forgot, but in the case of the real war, not a proxy conflict somewhere overseas, the high-quality professionals quickly become a very scarce resource. And you will have to do the job with the people you have right here and right now. And without skilled personnel, the advanced machinery quickly degrades. Will it be possible to reproduce the production cycle with just that? What will be the time lag before the "downgraded" production lines start producing enough lower-tier munition?
So the "Russian", "Iranian", "North Korea" technologies are worth not joking about, but analysis. Because it is quite possible that, in the end, all the war participants would use something like that.
My God. That looks like some 1980s DIY board I would have made at home. Incredibly crude. And that went into service in 2010????
It is normal for ruzzia. They have such "technology" everywhere.
The fact that the circuit board is made using cheaper technology does not make the missile any less lethal. Also, this part of the circuit does not have high-speed or high-frequency interfaces, which made it possible to make it on such a simple printed circuit board.
Seriously. I got flashbacks of using rub-on transfers and tape to layout my boards.
A samurai without a sword is like a samurai with a sword, but without a sword. A PCB without a mask is similar to a PCB with a mask, but without the mask. :)
They started developing that weapon back in Soviet times. If it ain’t broke…
Nice video! I am very interested in how you acquire such hardware, i myself am very interested in seekers and imaging sensors from missiles or aircraft and i know nothing about how to get my hands on these.
amazing
Incredibly high-quality review of the board . The wires attached to the diagram are called MGTF, copper flexible wire in heat-resistant insulation. I wonder what the decimal number 7.108 means... In any case, military acceptance in a fairly good performance. but long outdated as one of the guidance and flight control systems. More such reviews, Thank you Michael for your work! We are waiting for a review of the boards from the optical gyroscope.
All military PCBs in Russia must have a code formatted in accordance to the federal regulations. The code on this board is not in the correct format. Despite that, this is certainly a Russian-made military PCB. All of the components are very expensive, military grade items. The smallest chips cost $10-30 and are hand-made and individually tested.
This board is not from the X-101, but from the 9M317 anti-aircraft missile.
@@cogoid10$ если только в ЧипДипе,в розницу
Так,в партиях,в упаковке-по цене позолоты(100-150р)
Lots of support from Pakistan
А вот это точно наша плата! Бескомпромиссная лапша МГТФ провода в синей изоленте, налепленная прям на плату 😁😁😁
Изящно, просто. Коннекторы для слабаков!!!
Ça date de quand ce genre de missile, ça à bien 30 ou 40 ans vu à quoi ressemble l'électronique utiliser
Did you look for it on Wiki or Google?
"The Kh-101 (Russian: Х-101; NATO reporting name: AS-23 "Kodiak") is a Russian subsonic air-launched cruise missile. Designed in the 1990s, it underwent testing in the 2000s and entered service in the 2010s, seeing use in the Syrian Civil War and the Russian invasion of Ukraine."
So it's recent missile.
7 meters long.
3,500km range.
Guidance system is inertial guidance with Doppler radar/terrain map updates..
Can have conventional or nuclear payload.
2,400kg weight.
@@Google_Does_Evil_Now Je savais que les russes étaient en retard sur l'électronique de manière générale mais à ce point quand même je ne l'imaginais pas
C'est vrai que la technique utilisée est un peu vieillotte, il utilise même une centrale inertielle mécanique style années 60 ou 70.
t.me/ministry_of_defense_ua/1353
The date on the PCB is 5/7/13. Russians focus on reliability both in manufacturing and in operation. This tech offers both reliable manufacturing and operation.
@@lelabodemichel5162 honnêtement, j'ai du mal à croire qu'une centrale inertielle mécanique permettre la précision observée sur ces missiles. Le guidage inertiel moderne utilise un filtrage de Kalman pour faire de la fusion de données INS/GNSS, qui me semble difficile à obtenir avec une INS mécanique.
Qu'est ce qui vous permet d'être raisonnablement sûr que cette carte vient d'un KH-101 ?
Hello Michel what kind of software do you use for drawing schematics? Greetings and thank you.
PADS Logic
@@lelabodemichel5162 Thank you so much. I will tell you the thing with these guarding tracks connected to the opamp output in the inverting configuration and not to the ground. In the schools of eastern europe they teach that the virtual earth point (after the input resistor) has some resistance as well, and if some noise will be picked up by this point it will be hugely amplified by the feedback resistor. The signal that comes from opamp output that is inverted is meant to keep the noise level at minimum because if any gain of such noise will occur at the opamp output, it will be effectively attenuated, as it is the same noise as at the virtual earth point but inverted, and that would be the effect of capacitive coupling between the guard track and earth point. If connected to ground, still the common mode noise could be amplified but not attenuated then, and if any noise will be picked up by the ground it could be easily translated to the opamp output causing errors. It is another thing if by these impedances that theory is valid but this is how mostly the russian engineers are trained.
A guarding has nothing to do with noise. It permits to avoid leakage currents due to pollution on the board. Leakage currents return to the guarding track and not to the sensitive track. If you have a voltage present between the guarding track and the track itself it will increase dramatically this leakage current. Difference of potential should be minimum. Furthermore on that board you have all combinations, you don't have the same guarding track connection for same configuration. Anyway guarding tracks are not required with such resistors values.
@@MatthiasGrolberg
Аналоговая техника использовалась давно(учился в 80х)))-уже тогда это было 'давно'
Uma máquina muito linda
Please will you turn up the audio gain during your final edit. Sound levels very low...
*1КЛА7* = 564ЛА7, old 70's CMOS logic.
To be fair, this board is the trailing edge even for Russian military electronics. The majority of boards from Kh-101, the pictures of which one can find on-line, are much more modern.
Where on Earth did you find that!? Is it publicly available?
@@mortlet5180 Sure. Wreckage of Russian missiles from Ukraine had been publicly exhibited, and there are plenty of pictures from these exhibitions. Some with labels explaining a little bit what the hardware is.
There are also many other publications, with a particular focus on Western components in Russian military hardware.
Ukrainian Institute of Forensic Science has been collecting specimens of Russian military hardware, and I assume they and other similar organizations publish reports on it. Some of the best pictures came from them, but full reports are probably not public. They had a few general videos about their work though.
The board was developed in the early 2000s for missiles from the Buk-M2 air defense system.
@@milaro222 According to the official history of the project published by the developer: "By the Decree of the Central Committee of the Communist Party of Soviet Union and the Council of Ministers of USSR of October 18, 1990, the SAM "Buk-M2" was accepted into service, and the terms for its serial production were set. It became one of the last weapon models, the development of which was successfully completed before the collapse of the Soviet Union. Serial production of the "Buk" of the third generation never began. In the 1990s, only the 9M317 missile was mastered in serial production"
Prochaine vidéo : j'analyse le radar d'un des Rafale qui c'est cracher récemment
Simple and reliable. For those who write that this is an outdated technology, I do not envy when this rocket arrives to you.
Bad manufacturing culture will cause high failure rate. That's how it works, Ivan.
The russian name for guarding is "equipotential protection". A bit ironic how they mess it up even though the principle is in the name.
What's the point of having a PCB, if connecting with wires?
1:22 the curves and glue make me think it's stress reduction and reliability. And the board is single layer, simple type.
I never in my life thought I'd see something like this! And it turns out it's really primitive too!
Советская школа: условие необходимости и достаточности выполнено. Чем проще - тем надежнее. Плата на качественном текстолите, ручная сборка, высококачественные комплектуюшие + покрытие лаком. ❤❤❤❤❤❤❤
I don't even see a conformal coating on that board and many of those components don't look very resistant to vibration. Garbage.
It is difficult to see and I didn't mentionned it but there is a conformal coating on both side.
Это хорошо для одного прототипа, но не для массового производства.
@@lelabodemichel5162Conformal coating is easy to see under UV when it shines means that it is laid.
But these missiles are not foolproof. On the contrary, they often break down or miss their targets.
Dont get fully of the old technology. There is no old weapons.
1КЛА7 (1KLA7) - in-plant designation 564ЛА7 (564LA7)
1К = 564
CD4011AK
1305 = 2013 05 week
vot, vot - rashka 564oj serii.. LA4, LA3, TM2 itp
Nothing is more Russian than blue isolation tape.
Insulation.
They don't order PCBs from jlcpcb but make them themselves with pens and then etch them in acid ?
I guess no. Stolen or free software was used for development.
I did that in 1979 on a test sample (gosudarstvennoje ispitaniye).
TTL logic was copied by then and approved for military purposes in USSR.
It was series 155 (5V)
Complementary (series 176) was not approved by KGB at the time although we loved it for civilian aplications..
@@IndulisBeisans I was in university in 1989 and we studied Orcad for board design.
With pens, nail lacquer and Fe my 2 fellas and me designed and produced 16 channel audio MUX console (with 5 band graphic EQ), not a marketable piece, although pretty good for our shitty garage band.. ballanced inputs, measured -96d plus inputs.
Year 1982, probably.
Almost every part/element except plywood carcas was somewher stolen and bought/traded by us.
@@IndulisBeisans In 1989 we had first IBM PCs with i8088 and DOS 3.3 for development in university. We used first microcontrollers (8051) in our design and of course we used analog computing for labs :)
Вот он, узнаю чип из моей стиральной машинки. Передайте гинекологу урсуле.
тут логика малой степени интеграции - до стиралки ещё лет 40-50.....
Такой чип спокойно летит мимо вместе с ракетой в супермаркет например среди белого дня и без сбития. Или в Охматдет где онко больные дети , или тебя больше интересуют унитазы и стиралки?
@@КонстантинЛетов-у6р Они управляются по GPS и радиоканалу. На видео только фрагмент.
@@КонстантинЛетов-у6р
Да,украинцы пытаются сбивать разные артефакты,и часто попадают в свои дома
Такая статистика
Поражения от 300-500 кг БЧ отличаются от ракет Бук
looks like it was laid out by a first year gardening student...
1978 tech? Looks like the guts of really old video machines and TVs I've fixed.
It's the usually the capacitors that fail with stuff that old.
Capacitors are not the same than TVs or video machines. It is a wet tantalum, K52-1B type:
elecond.ru/pdf/k52-1b_en.pdf
The storageability is an important parameter, 20 years for this one.
Попробуйте дорогие конденсаторы,танталовые
Палладиево/серебряные
Как на этой макетной плате
The PCBs I make at home are better than this PCB.
Do you take order?
The level of technology in the 70s is supposedly a modern rocket 🙄
I was expecting the testing to include a missile launch!! Seriously though, very interesting video, but this board looks very amateurish for even the 1990s.
Still survived a launch and quite possible detonation..
@@trainingtheworld5093 Yes, but I wonder what the failure rate is?
@@Mike-H_UK They used them in Syria to good effect. I would imagine they’re simple and deadly.
обожгли плату от бытовой электроники и продали как от ракеты..😆😆😆
Это же от твоего вибратора плата, ты зачем его спалил?
Это такая военка на расии что бы ты понимал) Военка выпущенная в рфии может даже по своим гэпнуть нехило, как в Курской области. Зачем вы вообще своих бомбите?🤣
@@КонстантинЛетов-у6р как там миномет "молот"?
Российская технология архаична, нет быстрых цифровых схем. Российская электроника опоздала на 50 лет!
pour un missile c'est du travail d'amateur !