Relay Control System Setup

flux

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Below is a suggested project description that summarizes the code functionality:
Project Description
This project implements a relay-based control system with multiple operating modes, designed to manage timed events, LED indicators, and motor actions. Key aspects include:
  • Timing and Control:
    • Macros tEsperaFinal, tEsperaAntesDisparo, and tTemporizadorAutoSorteo set up the waiting times before and after relay activation and to trigger an automatic sorteo (lottery) sequence.
    • Several timing variables (e.g. t1 to t14) and flags (e.g. temporizadorActivado, tickTemporizador) are declared for scheduling and event management.
  • Pin Definitions and I/O Configuration:
    • The project defines specific pins for LED outputs (e.g. Led1 to Led5), additional digital inputs and outputs (e.g. l1 to l5, comun, motores, habil), as well as inputs to select different modes (disco modes via PinCambioDisco and pinModo3).
    • The setup() function initializes serial communication, configures each pin using pinMode(), and sets initial states for outputs and LEDs.
  • Mode Detection and LED Indication:
    • Upon startup, the system reads from analog/digital inputs to determine whether the sorteo mode or an alternative state (determined by the state of GPIO26) is active.
    • Different LED masks are used (controlled by the array mascaraLeds) to indicate the current mode. For example, when a sorteo is detected on an analog input (A0), specific LEDs flash before the code waits until the input changes.
  • Randomization and Mode Selection:
    • A random seed is generated using an analog reading to ensure unpredictable behavior.
    • Variables such as EstAcDisco and ModoDisco help determine if a “disco” mode is activated, with additional mode flags set for double or triple modes.
  • Loop Function:
    • While the main loop contains a placeholder comment, it is designed to continue the core logic of the system. Future logic in the loop would handle relay firing, motor activation, LED sequences, and any further real-time processing needed.
Overall, the code serves as the firmware for a multifunctional control board where timing, LED feedback, and mode selection are central to its operation.
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PP5V0
R3
Resistance
10k Ω
C7
Capacitance
1u F
C13
Capacitance
1u F
PG_PP5V0
C18
Capacitance
1u F
USBC2.0_D_N
SPI_MISO
H4
H1
C2
Manufacturer Part Number
OPT
PP3V3
SPI_SCK
USBC2.0_D_P
C10
Capacitance
1u F
PP3V3_SPI
C25
Capacitance
22u F
C15
Capacitance
1u F
Y1
R7
Resistance
100k Ω
L1
Inductance
2.2n H
R8
Resistance
953k Ω
SPI_SCK
IC1
U2
C22
Capacitance
10u F
MCU_TXD
J1
H2
C5
Capacitance
1u F
INT_ADC_DRDY
PP3V3
C8
Capacitance
13p F
C21
Capacitance
10u F
GPIO_SW1
C12
Capacitance
1u F
I2C_SDA
GPIO_SW2
SPI_MISO
H3
C6
Capacitance
1.2p F
C24
Capacitance
1u F
PP12V0
SPI_MOSI
R6
Resistance
180k Ω
C30
Capacitance
10u F
L2
Inductance
2.2n H
MCU_RXD
I2C_SCL
SPI_CS
C31
Capacitance
.1u F
VOS
MCU_BOOT
PP3V3
SPI_CS
SPI_MOSI
C4
Capacitance
13p F
J2
L3
Inductance
2.2u H
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ESPRSSO32 Smart Scale AI Auto Layout [Example]

ESPRSSO32 Smart Scale AI Auto Layout [Example]
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Last updated by verdemardan
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verdemardan

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