Finding ESP32-S3 Component

flux

Yes — from the datasheet, these pins group cleanly by function.
Functional pin groups Power
  • VBAT: 38, 39, 62, 63
  • VDD_1V8: 15
    • 1.8 V output
  • VDD_AUX: 44
    • Auxiliary LDO output, nominally 2.85 V by default
Ground
  • GND: 1, 2, 5, 10, 14, 37, 40, 41, 43, 57, 58, 60, 61, 64, 65, 77, 78, 80, 81
System control
  • PWRKEY: 3
  • RESET: 4
  • FLIGHTMODE: 54
  • BOOT_CFG0: 85
USB
  • USB_VBUS: 11
  • USB_DN: 12
  • USB_DP: 13
  • USB_ID: 16
UART
  • RTS: 66
  • CTS: 67
  • RXD: 68
  • RI: 69
  • DCD: 70
  • TXD: 71
  • DTR: 72
USIM / SIM card
  • USIM_DATA: 17
  • USIM_RST: 18
  • USIM_CLK: 19
  • USIM_VDD: 20
  • USIM_DET: 53
SPI
  • SPI_CLK: 6
  • SPI_MISO: 7
  • SPI_MOSI: 8
  • SPI_CS: 9
I2C
  • SCL: 55
  • SDA: 56
PCM / audio
  • PCM_OUT: 73
  • PCM_IN: 74
  • PCM_SYNC: 75
  • PCM_CLK: 76
  • ISINK: 45
ADC / analog
  • ADC2: 46
  • ADC1: 47
SD card
  • SD_CMD: 21
  • SD_DATA0: 22
  • SD_DATA1: 23
  • SD_DATA2: 24
  • SD_DATA3: 25
  • SD_CLK: 26
  • SD_DET: 48
SDIO
  • SDIO_DATA1: 27
  • SDIO_DATA2: 28
  • SDIO_CMD: 29
  • SDIO_DATA0: 30
  • SDIO_DATA3: 31
  • SDIO_CLK: 32
HSIC
  • HSIC_STROBE: 35
  • HSIC_DATA: 36
GPIO / status / indicators
  • GPIO3: 33
  • GPIO6: 34
  • GPIO41: 52
  • GPIO43: 50
  • GPIO77: 87
  • STATUS: 49
  • NETLIGHT: 51
RF / antenna
  • AUX_ANT: 59
  • GNSS_ANT: 79
  • MAIN_ANT: 82
  • COEX1: 83
  • COEX2: 84
  • COEX3: 86
Reserved / no connect
  • NC: 42
If you want a symbol-friendly grouping
For a clean part symbol in Flux, I’d suggest these sections:
  • Power
  • Ground
  • Control
  • USB
  • UART
  • USIM
  • SPI / I2C
  • SD / SDIO
  • Audio / PCM
  • ADC / Analog
  • GPIO / Status
  • RF
If you want, I can next turn this into a pin grouping table formatted for Flux properties:
  • Section
  • Pin Group
  • Pin Orientation
  • optional Sub-symbol Designator Suffix for each pin.
Create Flux pin table
Split into sub-symbols
Add pin types too
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Documents

    Documents are markdown text files which describe project goals, capture details, or even simulation outputs.

    Assets

    step

    SIM7600E-H.step

    3D3D Model
    image-removebg-preview (18).png

    image-removebg-preview (18).png

    image-removebg-preview (18)Thumbnail
    kicad_mod

    IC_SIM7600E-H.kicad_mod

    FOOTPRINT_V5Footprint
    SIM7600E-H

    SIM7600E-H

    defaultDefault

    SIM7600E-H

    SIM7600E-H thumbnail
    Cellular EDGE, GPRS, GSM, HSPA+, LTE, UMTS Transceiver Module 900MHz, 1.8GHz Antenna Not Included Surface Mount The SIM7600E-H is a multi-mode LTE module that supports: LTE (4G) Cat-4 with up to 150 Mbps download / 50 Mbps upload 3G (UMTS/HSPA+) 2G (GSM/GPRS/EDGE) fallback for global network compatibility It is built in a compact SMT/LCC package (about 30 × 30 mm) and is widely used for embedded devices that need mobile internet and GNSS positioning Key Features Network support LTE-FDD / LTE-TDD (global bands depending on variant) UMTS/HSPA+ GSM/GPRS/EDGE fallback Data speed LTE Cat-4: up to 150 Mbps downlink 3G/2G fallback for lower-speed connectivity GNSS built-in GPS / GLONASS / other satellite positioning support Interfaces USB 2.0 UART GPIO I2C ADC PCM (audio support) SIM card interface Software / protocols AT command control TCP/IP, UDP, HTTP, HTTPS, FTP, DNS Driver support for Windows, Linux, Android Power supply ~3.4V to 4.2V typical operating range Operating temperature -40°C to +85°C (industrial grade) Typical Applications IoT devices GPS trackers Smart metering Industrial routers / gateways Remote monitoring systems Vehicle telematics Point-of-sale terminals #commonpartslibrary #rf #wireless #transceiver #module

    Properties

    Module

    SIMCom Wireless Solutions Limited

    SIM7600E-H

    simcom.ee/documents/SIM7600E/SIM7600%20Series%20Hardware%20Design_V1.03.pdf

    U

    creativecommons.org/licenses/by/4.0/

    parametric-v1

    Pricing & Availability

    Distributor

    Qty 1

    Controls