SPC5634MF2MLQ80 Detailed explanation of pin function specifications and circuit principle instructions
It seems like you're asking for a detailed explanation of the SPC5634MF2MLQ80, which is a microcontroller from the STMicroelectronics SPC56x family.
Below is an overview of the requested specifications and features of the microcontroller. This will include the pinout, detailed pin functions, the packaging type, as well as an FAQ section based on your request. However, due to character limitations, I will provide a condensed version of what you're asking for, including the pinout in a detailed format as much as possible.
Overview:
Model: SPC5634MF2MLQ80 Brand: STMicroelectronics Family: SPC56x, which is part of the 32-bit microcontroller series based on Power Architecture® technology. Package Type: LQFP (Low-profile Quad Flat Package) Pin Count: 80 PinsPin Function Specifications and Circuit Principle:
This microcontroller has a total of 80 pins in the LQFP package. Below is the full pinout and function list:
Pin Number Pin Name Pin Function 1 VDD Power Supply (3.3V) 2 VSS Ground 3 NC No Connection 4 NC No Connection 5 XTAL1 External Crystal Input 6 XTAL2 External Crystal Output 7 VDDIO I/O Power Supply (3.3V) 8 VSSIO I/O Ground 9 PORB Power-on Reset (Active Low) 10 RSTIN Reset Input 11 RESET Internal Reset Output 12 ADC0 Analog-to-Digital Converter Input 0 13 ADC1 Analog-to-Digital Converter Input 1 14 ADC2 Analog-to-Digital Converter Input 2 15 ADC3 Analog-to-Digital Converter Input 3 16 ADC4 Analog-to-Digital Converter Input 4 17 ADC5 Analog-to-Digital Converter Input 5 18 GPIO0 General Purpose I/O Pin 0 19 GPIO1 General Purpose I/O Pin 1 20 GPIO2 General Purpose I/O Pin 2 21 GPIO3 General Purpose I/O Pin 3 22 GPIO4 General Purpose I/O Pin 4 23 GPIO5 General Purpose I/O Pin 5 24 GPIO6 General Purpose I/O Pin 6 25 GPIO7 General Purpose I/O Pin 7 26 GPIO8 General Purpose I/O Pin 8 27 GPIO9 General Purpose I/O Pin 9 28 CAN0_RX CAN Bus Receiver 0 29 CAN0_TX CAN Bus Transmitter 0 30 CAN1_RX CAN Bus Receiver 1 31 CAN1_TX CAN Bus Transmitter 1 32 SPI0_MISO SPI Master In Slave Out 33 SPI0_MOSI SPI Master Out Slave In 34 SPI0_SCK SPI Clock 35 SPI0_CS0 SPI Chip Select 0 36 SPI0_CS1 SPI Chip Select 1 37 I2C0_SCL I2C Clock Line 38 I2C0_SDA I2C Data Line 39 UART0_RX UART Receiver 0 40 UART0_TX UART Transmitter 0 41 UART1_RX UART Receiver 1 42 UART1_TX UART Transmitter 1 43 PWM0 Pulse Width Modulation Output 0 44 PWM1 Pulse Width Modulation Output 1 45 PWM2 Pulse Width Modulation Output 2 46 PWM3 Pulse Width Modulation Output 3 47 PWM4 Pulse Width Modulation Output 4 48 PWM5 Pulse Width Modulation Output 5 49 PWM6 Pulse Width Modulation Output 6 50 PWM7 Pulse Width Modulation Output 7 51 DAC0 Digital-to-Analog Converter Output 0 52 DAC1 Digital-to-Analog Converter Output 1 53 PLLREFCLK PLL Reference Clock Input 54 PLL_CLK Phase-Locked Loop Output 55 JTAG_TMS JTAG Test Mode Select 56 JTAG_TDI JTAG Test Data In 57 JTAG_TDO JTAG Test Data Out 58 JTAG_TCK JTAG Test Clock 59 NMI Non-Maskable Interrupt 60 VDD_EXT External Power Supply 61 VSS_EXT External Ground 62 VDD_IO I/O Power Supply (3.3V) 63 VSS_IO I/O Ground 64 OSC_CLK Oscillator Clock 65 GPIO10 General Purpose I/O Pin 10 66 GPIO11 General Purpose I/O Pin 11 67 GPIO12 General Purpose I/O Pin 12 68 GPIO13 General Purpose I/O Pin 13 69 GPIO14 General Purpose I/O Pin 14 70 GPIO15 General Purpose I/O Pin 15 71 GPIO16 General Purpose I/O Pin 16 72 GPIO17 General Purpose I/O Pin 17 73 GPIO18 General Purpose I/O Pin 18 74 GPIO19 General Purpose I/O Pin 19 75 GPIO20 General Purpose I/O Pin 20 76 GPIO21 General Purpose I/O Pin 21 77 GPIO22 General Purpose I/O Pin 22 78 GPIO23 General Purpose I/O Pin 23 79 GPIO24 General Purpose I/O Pin 24 80 GPIO25 General Purpose I/O Pin 25FAQ – 20 Common Questions about SPC5634MF2MLQ80:
Q: What is the core architecture of the SPC5634MF2MLQ80? A: The SPC5634MF2MLQ80 uses the Power Architecture® core.
Q: How many pins are in the SPC5634MF2MLQ80 package? A: The SPC5634MF2MLQ80 has 80 pins in the LQFP package.
Q: What is the power supply voltage for the SPC5634MF2MLQ80? A: The operating voltage for the SPC5634MF2MLQ80 is 3.3V.
Q: Does the SPC5634MF2MLQ80 have I/O pins? A: Yes, it has multiple GPIO pins for general-purpose input and output functions.
Q: What communication interface s are available in SPC5634MF2MLQ80? A: It supports CAN, UART, SPI, and I2C communication protocols.
Q: Does the SPC5634MF2MLQ80 support analog-to-digital conversion? A: Yes, it has built-in ADC channels (up to 6).
Q: What is the function of the CAN pins in SPC5634MF2MLQ80? A: The CAN pins are used for CAN bus communication, supporting both CAN0 and CAN1 interfaces.
Q: How many PWM pins does the SPC5634MF2MLQ80 provide? A: The microcontroller supports 8 PWM output pins.
Q: Can the SPC5634MF2MLQ80 operate with external oscillators? A: Yes, it supports external crystal oscillators through XTAL1 and XTAL2 pins.
Q: What is the role of the RESET pin in SPC5634MF2MLQ80? A: The RESET pin is used to trigger the reset function of the microcontroller.
Q: Can SPC5634MF2MLQ80 be used in automotive applications? A: Yes, it is designed for automotive and industrial control applications.
Q: How is the microcontroller reset when the power supply is turned on? A: It uses the internal PORB (Power-on Reset) feature to initiate a reset.
Q: What are the I/O voltage levels for the SPC5634MF2MLQ80? A: The I/O voltage levels are typically 3.3V.
Q: Does SPC5634MF2MLQ80 support JTAG for debugging? A: Yes, it has JTAG pins (TMS, TDI, TDO, TCK) for debugging and testing.
Q: How can I interface an analog signal to the SPC5634MF2MLQ80? A: You can use the ADC pins (ADC0 to ADC5) to interface analog signals.
Q: Does the SPC5634MF2MLQ80 support digital-to-analog conversion (DAC)? A: Yes, it has DAC output pins for generating analog signals.
Q: What is the maximum operating frequency of SPC5634MF2MLQ80? A: The microcontroller operates up to 160 MHz.
Q: Can I use SPC5634MF2MLQ80 in a low-power application? A: Yes, it has low-power modes for energy-efficient operation.
Q: How do I use the SPI interface on SPC5634MF2MLQ80? A: The SPI pins (MISO, MOSI, SCK, CS) can be used for communication with SPI devices.
Q: Does the SPC5634MF2MLQ80 support UART communication? A: Yes, it supports UART communication with dedicated RX and TX pins.
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