File:Battery-powered preamp - power management (UVLO, muting delay).png

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English: A simple power management circuit for a battery-powered phono stage. The PMOS and the first relay do the ON-OFF and undervoltage lockout (UVLO); the second relay is for the muting delay (5s in this example). 6S1P lithium stack connected via a 6S BMS board. Relays are rated for 12V, well, simply because I had hundreds of these already; otherwise an RY24-K would be a better proposition. Both relays are driven via RC networks, so they get the full rated voltage at turn-on, but only around 2..3V afterwards. Thus, the continuous DC through each relay is around 2...3mA. The datasheet says that this relay has a release voltage of 0.6V, but in practice it shouldn't drop below 1.5V or so.
The purpose of R23 is to effectively short the power supply terminals of the preamp in off-state, discharging the preamp's own power filter capacitors. At the same time, R23 provides a fast, low-impedance discharge path for the capacitors C31, C32 - to reset the muting relay. Likewise, shorting R13 to ground (manually) discharges C11, C21. R13, R23 must be rated at least 1W to handle the transients.
The purpose of C11 is to ensure that the PMOS is OFF immediately after connecting the battery. Without C11, the power-up transient may force the latch into ON state. C11 isn't really required because the user can reset the latch manually after replacing the batteries.
The purpose of many diodes is to speed up discharge of the capacitors at turn-off or at power-down. They are not critical for safety; the small relay used here cannot create truly destructive inductive spikes.
BMS boards have UVLO functionality, so adding another UVLO stage might seem unnecessary. My reasoning was that (a) the quality and the UVLO setting of a particular board may be substandard (b) it makes sense to set the UVLO higher than the minimal stock value and (c) it costs pennies, who cares.
Русский: Схема управления питанием фонокорректором с батарейным питанием от сборки из шести литиевых батарей (21..25 V). Слева - типовая схема защиты от падения напряжения (UVLO) на TL431 и P-MOS, настройка порога отключения - на 21В. Справа реле задержки подключения выходов, в данном примере на 5с. RC-цепи между коллекторами TL431 и обмотками реле ограничивают постоянный токи обмоток реле на уровне 2...3 мА. При включении TL431 на обмотку поступает кратковременный скачок напряжения порядка 15В, который в течение десятых долей секунды проседает до примерно 2..3 В - этого достаточно для гарантированного удержания контактов. При отключении R23 коротит на себя нагрузку и быстро разряжает C32, C32 - тем самым обнуляя память реле времени. Аналогично, ручное замыкание R13 на землю кнопкой ВЫКЛ разрядает С11, С21. R23, R13 должны быть как минимум одноваттные - при переходных процессах на них падает всё напряжение питания.
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Source Own work
Author Retired electrician
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As-built. Two indicator LEDs and the LED assembly inside the VU meter (it has its own current-limiting circuitry) are inserted in series with R35 ballast resistor, the latter reduced to 4.7 kOhms.
The basic UVLO circuit is good for voltages from around 5 to 15 Volts. Going up to 24V requires voltage dividers to protect the gate of the PMOS
Analysis of the relay drive with an RC ballast between the TL431 and the coil. Establishing safe standing current values (see the description for this drawing).

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current21:40, 2 November 2021Thumbnail for version as of 21:40, 2 November 20212,118 × 948 (231 KB)Retired electrician (talk | contribs){{Information |Description={{en|A simple power management circuit for a battery-powered phono stage. The PMOS and the first relay do the ON-OFF and undervoltage lockout; the second relay is for the muting delay (5s in this example). 6S1P lithium stack connected via a 6S BMS board. Relays are rated for 12V, well, simply because I had hundreds of these already; otherwise an RY24-K would be a better proposition. Both relays are driven via RC networks, so they get the full rated voltage at turn-o...

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