I-STMicroelectronics STM32MP133C F 32-bit Arm Cortex-A7 1GHz MPU User Guide

Imixholo fihla

1 I-STMicroelectronics STM32MP133C F 32-bit Arm Cortex-A7 1GHz MPU

2 Iinkcukacha

3 Inkqubo engaphantsi kweArm Cortex-A7

4 Iinkumbulo

5 Umlawuli we-DDR

6 Ii-FAQs

7 Amaxwebhu / Izibonelelo

7.1 Iimbekiselo

8 Izithuba eziyeleleneyo

I-STMicroelectronics STM32MP133C F 32-bit Arm Cortex-A7 1GHz MPU

Iinkcukacha

Undoqo: IArm Cortex-A7
Iinkumbulo: I-SDRAM yangaphandle, i-SRAM eFakelweyo

Ibhasi yedatha: i-16-bit parallel interface
Ukhuseleko / uKhuseleko: Ukuseta kwakhona kunye noLawulo lwaMandla, i-LPLV-Stop2, i-standby

Iphakheji: LFBGA, TFBGA kunye ne-min pitch 0.5 mm
Ulawulo Lwewotshi

Igalelo/iZiphumo ezinjongo ngokubanzi
Uqhagamshelwano lweMatrix

4 Abalawuli beDMA
Iiperipheral zoNxibelelwano: Ukuya kuma-29

I-Analog peripherals: 6
Amaxesha: Ukuya kuthi ga kwi-24, Watchdogs: 2

Ukukhawuleziswa kweHardware
Imo Yokulungisa

I-Fuses: I-3072-bit iquka i-ID ekhethekileyo kunye ne-HUK ye-AES 256 izitshixo
I-ECOPACK2 iyahambelana

Inkqubo engaphantsi kweArm Cortex-A7

Inkqubo engaphantsi kweArm Cortex-A7 ye-STM32MP133C/F ibonelela...

Iinkumbulo

Isixhobo sibandakanya i-SDRAM yangaphandle kunye ne-SRAM eEmbedded yokugcina idatha…

Umlawuli we-DDR

I-DDR3/DDR3L/LPDDR2/LPDDR3 isilawuli silawula ukufikelela kwimemori...

Ulawulo loBonelelo lwaMandla
Iskim sobonelelo lwamandla kunye nomphathi baqinisekisa unikezelo lombane oluzinzileyo…

Ulawulo Lwewotshi
I-RCC iphatha ukuhanjiswa kwewotshi kunye nolungelelwaniso...

Igalelo/iZiphumo ezinenjongo ngokubanzi (GPIOs)
IiGPIO zibonelela ngezakhono zojongano lwezixhobo zangaphandle...

UMlawuli woKhuseleko lweTrustZone
I-ETZPC yongeza ukhuseleko lwenkqubo ngokulawula amalungelo okufikelela...

Ibhasi-Unxibelelwano lweMatrix
Imatrix iququzelela ukuhanjiswa kwedatha phakathi kweemodyuli ezahlukeneyo…

Ii-FAQs

Umbuzo: Lithini inani eliphezulu leeperipherals zonxibelelwano ezixhasiweyo?
A: I-STM32MP133C/F ixhasa ukuya kuthi ga kwiiperipherals zonxibelelwano ezingama-29.

Q: Zingaphi iiperipherals ze-analog ezikhoyo?
A: Isixhobo sinikezela ngeeperipherals ze-analog ze-6 kwimisebenzi eyahlukeneyo ye-analog.

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STM32MP133C STM32MP133F

I-Arm® Cortex®-A7 ukuya kwi-1 GHz, 2×ETH, 2×CAN FD, 2×ADC, 24 timers, audio, crypto kunye ne-adv. ukhuseleko
I-datasheet - idatha yemveliso

Iimbonakalo
Ibandakanya iteknoloji ye-ST ye-patent yaseburhulumenteni
Undoqo
· 32-bit Arm® Cortex®-A7 L1 32-Kbyte I / 32-Kbyte D 128-Kbyte inqanaba elidityanisiweyo 2 cache Arm® NEONTM kunye Arm® TrustZone®

Iinkumbulo
· Inkumbulo ye-DDR yangaphandle ukuya kwi-1 Gbyte ukuya kuthi ga kwi-LPDDR2/LPDDR3-1066 16-bit ukuya kuthi ga kwi-DDR3/DDR3L-1066 16-bit
· I-168 Kbytes ye-SRAM yangaphakathi: 128 Kbytes ye-AXI SYSRAM + 32 Kbytes ye-AHB SRAM kunye ne-8 Kbytes ye-SRAM kwi-Backup domain
· Dual Quad-SPI memory interface · Flexible isilawuli senkumbulo yangaphandle ukuya kuthi ga
Ibhasi yedatha ye-16-bit: ujongano oluhambelanayo lokudibanisa ii-ICs zangaphandle kunye neenkumbulo ze-SLC NAND ukuya kuthi ga kwi-8-bit ECC.
Ukhuseleko/ukhuseleko
· Khusela ukuqala, i-TrustZone® peripherals, 12 xtampizikhonkwane eziquka 5 x esebenzayo tampers
· Ubushushu, voltage, frequency kunye ne-32 kHz esweni
Ukuseta kwakhona kunye nolawulo lwamandla
· 1.71 V ukuya kwi-3.6 VI / Os unikezelo (i-5 V-ukunyamezela i-I / Os) · I-POR, i-PDR, i-PVD kunye ne-BOR · I-On-chip LDOs (i-USB 1.8 V, 1.1 V) · Umlawuli we-Backup (~ 0.9 V) · Izinzwa zeqondo lokushisa langaphakathi · Iimodi zamandla aphantsi: Ukulala, LP-Stop, Stop
I-LPLV-Stop2 kunye ne-standby

I-LFBGA

TFBGA

LFBGA289 (14 × 14mm) I-Pitch 0.8 mm

TFBGA289 (9 × 9 mm) TFBGA320 (11 × 11 mm)
min pitch 0.5 mm

· Ukugcinwa kwe-DDR kwimowudi yokulinda · Ulawulo lwetshiphu yeqabane le-PMIC

Ulawulo lwewotshi
· Ii-oscillator zangaphakathi: 64 MHz HSI oscillator, 4 MHz CSI oscillator, 32 kHz LSI oscillator
· Ii-oscillator zangaphandle: 8-48 MHz HSE oscillator, 32.768 kHz LSE oscillator
· 4 × ii-PLL ezinemowudi yeqhezu

Igalelo/iziphumo zenjongo ngokubanzi
· Ukuya kuthi ga kwi-135 izibuko ze-I/O ezikhuselekileyo ezinokuphazamiseka
· Ukuya kuthi ga kwi-6 yokuvuka

Uqhagamshelwano lwematrix
· Iimatriki ezi-2 zebhasi 64-bit Arm® AMBA® AXI uqhagamshelwano, ukuya kuthi ga kwi-266 MHz 32-bit Arm® AMBA® AHB uqhagamshelwano, ukuya kuthi ga kwi-209 MHz

4 abalawuli be-DMA ukukhulula i-CPU
· Amatshaneli angama-56 ewonke
· I-1 x isantya esiphezulu-injongo-jikelele yolawulo oluthe ngqo lwenkumbulo yofikelelo (MDMA)
· I-3 × ii-DMA ezimbini ezinezibuko ezine-FIFO kwaye zicele izakhono ze-router kulawulo olululo lweperipheral

NgoSeptemba 2024
Olu lwazi kwimveliso kwimveliso epheleleyo.

I-DS13875 Rev 5

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STM32MP133C/F

Ukuya kuthi ga kwii-peripherals zonxibelelwano ezingama-29
· 5 × I2C FM+ (1 Mbit/s, SMBus/PMBusTM) · 4 x UART + 4 x USART (12.5 Mbit/s,
ISO7816 interface, LIN, IrDA, SPI) · 5 × SPI (50 Mbit/s, kuquka 4 kunye full-duplex
Ukuchaneka kweklasi ye-I2S ye-audio nge-PLL yomsindo wangaphakathi okanye iwotshi yangaphandle) (+2 QUADSPI + 4 nge-USART) · 2 × SAI (i-stereo audio: I2S, PDM, SPDIF Tx) · SPDIF Rx ngamagalelo e-4 · 2 × SDMMC ukuya kwi-8 bits (SD/e ·MMCle × × I-SDIO yokuxhasa i-CAN × iprotocol ye-MMC2 × CAND CAND CAN DAN) I-USB 2 Umamkeli ohamba ngesantya esiphezulu okanye i-2.0 × i-USB 1 yomamkeli okwisantya esiphezulu

+ 1 × USB 2.0 high-speed OTG ngaxeshanye · 2 x Ethernet MAC/GMAC IEEE 1588v2 hardware, MII/RMII/RGMII
6 iiperipherals ze-analog
· 2 × ii-ADCs ezine-12-bit max. isisombululo ukuya kuthi ga kwi-5 Msps
· 1 x isivamvo sobushushu · 1 x isihluzo sedijithali semodyuli ye-sigma-delta
(DFSDM) kunye namajelo e-4 kunye nezihlungi ze-2 · I-Internal or outside ADC reference VREF +
Ukuya kuthi ga kwi-24 timers kunye ne-2 watchdogs
· 2 × 32-bit izibali-xesha ukuya kuthi ga kwi-4 IC/OC/PWM okanye ipulse counter kunye nequadrature (eyongezelelweyo) igalelo leencoder
· 2 × 16-bit izibambi-xesha eziphambili · 10 × 16-bit XNUMX-bit izibali-xesha jikelele-injongo (kuquka
Izibali-xesha ezi-2 ezisisiseko ngaphandle kwe-PWM) · 5 × 16-bit izibali zamandla asezantsi · Khusela i-RTC ngokuchaneka komncinane kunye
ikhalenda yehardware · 4 Cortex®-A7 isibali-xesha senkqubo (ikhuselekile,
engakhuselekanga, ebonakalayo, i-hypervisor) · I-2 × ii-watchdogs ezizimeleyo
Ukukhawulezisa izixhobo
· AES 128, 192, 256 DES/TDES

2 (izimele, ikhuselekile) 5 (2 ikhuselekile) 4 5 (3 ikhuselekile)
I-4 + 4 (kuquka i-2 USART ekhuselekileyo), abanye banokuba ngumthombo we-boot
I-2 (ukuya kwi-4 iziteshi zomsindo), kunye ne-I2S master / ikhoboka, igalelo le-PCM, i-SPDIF-TX 2 izibuko
I-HSPHY elungisiweyo ene-BCD Embekelwe iHS PHY ene-BCD (ekhuselekile), ingaba ngumthombo wesiqalo
I-2 × i-HS ekwabelwana ngayo phakathi kwe-Host kunye ne-OTG ye-4 yamagalelo

2 (1 × TTCAN), ulungelelwaniso lwewotshi, 10 Kbyte ekwabelwana ngayo buffer 2 (8 + 8 bits) (ekhuselweyo), e·MMC okanye SD ingaba ngumthombo wesiqalo 2 ozikhethelayo unikezelo lwamandla oluzimeleyo kujongano lwekhadi le-SD
I-1 (i-dual-quad) (ikhuselekile), ingaba ngumthombo we-boot

–
–
Bhuqa
–
Bhuqa
UkuQalisa i-Boot
(1)

Idilesi enxuseneyo/idatha 8/16-bit FMC Parallel AD-mux 8/16-bit
NAND 8/16-bit 10/100M/Gigabit Ethernet DMA Cryptography
IHash Yinyani ye-random yejenereyitha yeeFuse (ixesha elinye liyacwangciswa)

4 × CS, ukuya kuthi ga kwi-4 × 64 Mbyte
Ewe, i-2 × CS, SLC, BCH4 / 8, ingaba ngumthombo we-boot 2 x (MII, RMI, RGMII) kunye ne-PTP kunye ne-EEE (ekhuselekileyo)
Iimeko ze-3 (i-1 ekhuselekileyo), i-33-channel MDMA PKA (enokhuseleko lwe-DPA), i-DES, i-TDES, i-AES (enokhuseleko lwe-DPA)
(konke kukhuselekile) SHA-1, SHA-224, SHA-256, SHA-384, SHA-512, SHA-3, HMAC
(ikhuselekile) Yinyani-RNG (ikhuselekile) 3072 amasuntswana asebenzayo (akhuselekile, amasuntswana angama-1280 akhoyo kumsebenzisi)

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Ukuvula -
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Inkcazo

Itheyibhile 1. Iimpawu ze-STM32MP133C/F kunye nokubala kweperipheral (iyaqhutywa)

STM32MP133CAE STM32MP133FAE STM32MP133CAG STM32MP133FAG STM32MP133CAF STM32MP133FAF Iintlobo ngeentlobo

Iimbonakalo

LFBGA289

TFBGA289

TFBGA320

I-GPIOs ezinokuphazamiseka (inani lilonke)

135(2)

Izikhonkwane zokuvuka ze-GPIOs ezikhuselekileyo

Konke
6

Tampizikhonkwane (esebenzayo tamper)

12 (5)

DFSDM Ukuya kuthi ga kwi-12-bit edityanisiweyo ye-ADC

Amajelo ama-4 aneefilitha ezi-2

–

2(3) (ukuya kwi-5 Msps kwi-12-bit nganye) (ikhuselekile)

I-ADC1: Iitshaneli ze-19 ezibandakanya i-1x yangaphakathi, iziteshi ze-18 ezikhoyo

I-12-bit ADC channels zizonke(4)

umsebenzisi kuquka 8x umahluko

–

I-ADC2: Iitshaneli ze-18 ezibandakanya i-6x yangaphakathi, iziteshi ze-12 ezikhoyo

umsebenzisi kuquka 6x umahluko

Yangaphakathi ADC VREF VREF+ iphini lokungena

1.65 V, 1.8 V, 2.048 V, 2.5 V okanye VREF+ igalelo -
Ewe

1. I-QUADSPI isenokuqalisa nokuba kwii-GPIO ezinikezelweyo okanye isebenzise ezinye ii-FMC Nand8 boot GPIOs (PD4, PD1, PD5, PE9, PD11, PD15 (bona iTheyibhile 7: STM32MP133C/F iinkcazo zebhola).
2. Olu balo lulonke lweGPIO lubandakanya ezine JTAG I-GPIOs kunye nee-BOOT GPIOs ezintathu ezinosetyenziso olulinganiselweyo (zinokungqubana noqhagamshelo lwesixhobo sangaphandle ngexesha lokuskena komda okanye ukuqala).
3. Xa kusetyenziswa zombini ii-ADCs, iwotshi ye-kernel kufuneka ifane kuzo zombini ii-ADCs kwaye ii-prescaler ezifakwe ngaphakathi ze-ADC azinakusetyenziswa.
4. Ukongeza, kukwakho nemijelo yangaphakathi: – ADC1 itshaneli yangaphakathi: VREFINT – ADC2 itshaneli zangaphakathi: ubushushu, ivolthi yangaphakathitage reference, VDDCORE, VDDCPU, VDDQ_DDR, VBAT / 4.

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Inkcazelo 18/219

STM32MP133C/F

Umzobo 1. STM32MP133C/F umzobo webhloko

Izixhobo ze-IC

@VDDA

HSI

I-AXIM: Ingalo ye-64-bit AXI yoqhagamshelwano (266 MHz) T

@VDDCPU

GIC

Cortex-A7 CPU 650/1000 MHz + MMU + FPU + NEONT

32K D$

32K I $

I-CNT (ixesha) T

I-ETM

2561K2B8LK2B$L+2$SCU T
Async

128 amasuntswana

CSI

LSI

Debug amaxeshaamp

generator TSGEN

DAP
(JTAG/SWD)

ISYSRAM 128KB

I-ROM 128KB

2 x ETH MAC
10/100/1000(akukho GMII)

FIFO

I-BKPSRAM 8KB

RNG

HASH

16b PHY

I-DDRCTRL 58
LPDDR2/3, DDR3/3L

Async

CRYP

SAES

I-DDRMCE T TZC T

I-DDRPHYC
T

I-DLY

8b IQUADSPI (ezimbini) T

16b

I-FMC

CRC

I-DLYBSD1

(SDMMC1 DLY ulawulo)

I-DLYBSD2

(SDMMC2 DLY ulawulo)

I-DLYBQS

(ulawulo lwe-QUADSPI DLY)

FIFO FIFO

DLY DLY

14 8b SDMMC1 T 14 8b SDMMC2 T

PHY

USBH

(2xHS Umamkeli)

PLLUSB

FIFO

PKA

FIFO

T MDMA 32 amajelo

AXIMC TT

17 16b Landela izibuko

ETZPC

IWDG1

@VBAT

I-BSEC

IiFuse ze-OTP

@VDDA

RTC / AWU

TAMP / Ugcino lwerejista T

@VBAT

I-LSE (32kHz XTAL)

Ixesha lenkqubo STGENC

isizukulwana

STGENR

USBPHYC
(USB 2 x PHY ulawulo)
IWDG2

@VBAT

@VDDA

VREFBUF

16b LPTIM2

16b LPTIM3

16b LPTIM4

16b LPTIM5

Izikhonkwane ze-BOOT

SYSCFG

HDP

10 16b TIM1/PWM 10 16b TIM8/PWM

SAI1

SAI2

4ch DFSDM

Buffer 10KB CCU

FDCAN1

FDCAN2

FIFO FIFO
APB2 (100 MHz)

8KB FIFO
APB5 (100MHz)

APB3 (100 MHz)

APB4

async AHB2APB

I-SRAM1 16KB T SRAM2 8KB T SRAM3 8KB T

AHB2APB

I-DMA1
8 imilambo
DMAMUX1
I-DMA2
8 imilambo

DMAMUX2

I-DMA3
8 imilambo

I-PMB (inkqubo yokuhlola)
I-DTS (i-digital temp. sensor)

Umqulutage nabalawuli

@VDDA

Ulawulo lobonelelo

FIFO

2 × 2 Matrix
AHB2APB

64 bits AXI

64bits AXI inkosi

32 bits AHB 32 bits AHB master

32 bits APB

T TrustZone ukhuseleko lokhuseleko

AHB2APB

APB2 (100 MHz)

APB1 (100 MHz)
FIFO FIFO FIFO FIFO FIFO

I-MLAHB: Ingalo ye-32-bit ye-matrix yebhasi ye-AHB eninzi (209 MHz)
APB6
FIFO FIFO FIFO FIFO

@VBAT
T
FIFO

I-HSE (XTAL)

PLL1/2/3/4

I-RCC

T PWR

EXTI

16 okwesibini

176

USBO

(OTG HS)

PHY

12b ADC1

12b ADC2

GPIOA

16b

GPIOB

16b

GPIOC

16b

GPIOD

16b

GPIOE

16b

GPIOF

16b

GPIOG 16b 16

GPIOH

16b

GPIOI

16b

AHB2APB

UART1

Smartcard IrDA

UART2

Smartcard IrDA

SPI4/I2S4

I-SPI5

I2C3/SMBUS

I2C4/SMBUS

I2C5/SMBUS

Isihluzi sesihluzi

TIM12

16b

TIM13

16b

TIM14

16b

TIM15

16b

TIM16

16b

TIM17

16b

TIM2 TIM3 TIM4

32b

16b

TIM5 TIM6 TIM7

32b

16b

LPTIM1 16b

UART3

Smartcard IrDA

UART4

UART5

UART7

UART8

Isihluzi

I2C1/SMBUS

I2C2/SMBUS

SPI2/I2S2

SPI3/I2S3

UART6

Smartcard IrDA

SPI1/I2S1

FIFO FIFO

MSv67509V2

I-DS13875 Rev 5

STM32MP133C/F

Ukusebenza ngaphezuluview

3.1
3.1.1
3.1.2

Inkqubo engaphantsi kweArm Cortex-A7
Iimbonakalo
· Uyilo lwe-ARMv7-A · I-32-Kbyte L1 i-cache yomyalelo · I-32-Kbyte L1 i-cache yedatha · I-128-Kbyte level2 cache · I-Arm + Thumb®-2 iseti yomyalelo · I-Arm TrustZone yokhuseleko iteknoloji · I-Arm NEON advanced SIMD · I-DSP kunye ne-SIMD izandiso · Imodyuli ye-VFPv4 I-hardware tracepoint · inkxaso ye-hardware edadayo · VFPv160 Isilawuli se-generic esidityanisiweyo sokuphazamiseka (GIC) kunye nokuphazamiseka kwe-XNUMX okwabelwana ngaso kwi-peripheral · Isibali-xesha esidityanisiweyo segeneric (CNT)
Ngaphezuluview
Iprosesa yeCortex-A7 yinkqubo esebenza ngamandla esebenza ngamandla eyilelwe ukubonelela ukusebenza okutyebileyo kwizinto ezinxitywayo eziphezulu, kunye nezinye izinto ezifakwe amandla aphantsi kunye nezicelo zabathengi. Ibonelela ukuya kuthi ga kwi-20% ngaphezulu kokusebenza komsonto omnye kuneCortex-A5 kwaye ibonelela ngokusebenza okufanayo kuneCortex-A9.
I-Cortex-A7 idibanisa zonke iimpawu ze-high-performance Cortex-A15 kunye ne-CortexA17 processors, kubandakanywa inkxaso ye-virtualization kwi-hardware, i-NEON, kunye ne-128-bit AMBA 4 AXI i-interface yebhasi.
Iprosesa yeCortex-A7 yakhela kwi-8-s eyonga amandlatage umbhobho weCortex-A5 iprosesa. Ikwaxhamla kwi-cache ye-L2 edibeneyo eyenzelwe amandla aphantsi, kunye ne-latencies ye-transaction ephantsi kunye nokuphuculwa kwenkxaso ye-OS yokugcinwa kwe-cache. Ngaphezulu koku, kukho ukuqikelelwa kwesebe eliphuculweyo kunye nokusebenza kwenkqubo yememori ephuculweyo, kunye ne-64-bit ye-loadstore indlela, i-128-bit AMBA 4 ibhasi ye-AXI kunye nokwandisa ubungakanani be-TLB (ukungena kwe-256, ukusuka kwi-128 yokungena kwi-Cortex-A9 kunye ne-Cortex-A5), ukwandisa ukusebenza kwemithwalo yemisebenzi emikhulu efana web ukubrawuza.
Ubhontsi-2 iteknoloji
Inikezela ngencopho yokusebenza kwekhowudi yeArm yesiNtu ngelixa ikwabonelela nge-30 % yokunciphisa imfuno yememori yokugcina imiyalelo.
Itekhnoloji yeTrustZone
Iqinisekisa ukuphunyezwa okuthembekileyo kwezicelo zokhuseleko ukusuka kulawulo lwamalungelo edijithali ukuya kwintlawulo ye-elektroniki. Inkxaso ebanzi evela kubuchwephesha kunye namaqabane eshishini.

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Ukusebenza ngaphezuluview

STM32MP133C/F

I-NEON
Itekhnoloji ye-NEON inokukhawulezisa i-multimedia kunye ne-signal processing algorithms ezifana ne-video encode/decode, 2D/3D graphics, imidlalo, iaudio kunye nentetho yokuthetha, ukusetyenzwa kwemifanekiso, umnxeba, kunye nokuhlanganiswa kwesandi. I-Cortex-A7 ibonelela nge-injini enikezela ukusebenza kunye nokusebenza kweyunithi ye-Cortex-A7 yendawo edadayo (i-FPU) kunye nokuphunyezwa kwe-NEON yomyalelo we-SIMD ophucukileyo osetyenzisiweyo ukukhawulezisa okuthe kratya kwemidiya kunye nemisebenzi yokusetyenzwa komqondiso. I-NEON yandisa i-Cortex-A7 iprosesa yeFPU ukubonelela nge-quad-MAC kunye neseti eyongezelelweyo ye-64-bit kunye ne-128-bit yerejista exhasa isethi ecebileyo yemisebenzi ye-SIMD ngaphezu kwe-8-, 16- kunye ne-32-bit integer kunye ne-32-bit-point-point data ubuninzi.
I-Hardware virtualization
Inkxaso ephezulu ye-hardware yolawulo lwedatha kunye nolamlo, apho iindawo ezininzi zesoftware kunye nezicelo zabo zikwazi ukufikelela ngaxeshanye kwizakhono zesistim. Oku kuvumela ukufezekiswa kwezixhobo ezomeleleyo, kunye neemekobume ezibonakalayo ezibekwe zodwa enye kwenye.
I-L1 cache elungiselelweyo
Ukusebenza kunye namandla aphuculweyo e-L1 caches adibanisa ubuchule obuncinci bokufikelela kwi-latency ukwandisa ukusebenza kunye nokunciphisa ukusetyenziswa kwamandla.
Umlawuli we-cache we-L2 odibeneyo
Ibonelela nge-low-latency kunye ne-high-bandwidth ukufikelela kwimemori egciniweyo kwi-high-frequency, okanye ukunciphisa ukusetyenziswa kwamandla okuhambelana nokufikelela kwimemori ye-off-chip.
Iyunithi yendawo edadayo yeCortex-A7 (FPU)
I-FPU ibonelela ngokusebenza okuphezulu okukodwa kunye nemiyalelo ephindwe kabini echanekileyo yendawo edadayo ehambelana neArm VFPv4 uyilo oluyisoftware ehambelana nezizukulwana zangaphambili zeArm floating-point coprocessor.
Iyunithi yokulawula iSnoop (SCU)
I-SCU inoxanduva lokulawula i-interconnect, i-arbitration, unxibelelwano, i-cache kwi-cache kunye nokudluliselwa kwememori yenkqubo, ukuhambelana kwe-cache kunye nezinye izakhono zeprosesa.
Le nkqubo yokubambisana ikwanciphisa ukuntsokotha kwesoftware ebandakanyekayo ekugcineni ulungelelwaniso lwesoftware ngaphakathi komqhubi ngamnye we-OS.
Isilawuli sokuphazamiseka kweGeneric (GIC)
Ukuphumeza isilawuli sophazamiseko esisemgangathweni kunye nesiyiliweyo, i-GIC ibonelela ngendlela etyebileyo neguquguqukayo yonxibelelwano phakathi kweprosesa kunye nokuhamba kunye nokubekwa phambili kokuphazamiseka kwenkqubo.
Ukuxhasa ukuya kuthi ga kwi-192 yokuphazamiseka okuzimeleyo, phantsi kolawulo lwesoftware, i-hardware ebekwe phambili, kwaye ihanjiswe phakathi kwenkqubo yokusebenza kunye nomgangatho wolawulo lwesoftware yeTrustZone.
Oku kuguquguquka kwendlela kunye nenkxaso ye-virtualization yokuphazamiseka kwinkqubo yokusebenza, inika enye yeempawu eziphambili ezifunekayo ukuphucula amandla esisombululo usebenzisa i-hypervisor.

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3.2
3.2.1
3.2.2

Iinkumbulo
I-SDRAM yangaphandle
Izixhobo ze-STM32MP133C/F zifakela isilawuli se-SDRAM yangaphandle exhasa oku kulandelayo: · LPDDR2 okanye LPDDR3, 16-bit data, ukuya kwi-1 Gbyte, ukuya kuthi ga kwi-533 MHz clock · DDR3 okanye DDR3L, i-16-bit data, ukuya kwi-1 Gbyte, ukuya kwi-533 MHz.
I-SRAM elungisiweyo
Zonke izixhobo eziqukayo: · SYSRAM: 128 Kbytes (enesayizi enokucwangciswa indawo ekhuselekileyo) · AHB SRAM: 32 Kbytes (ekhuselekile) · BKPSRAM (ugcino lweSRAM): 8 Kbytes
Umxholo wale ndawo ukhuselwe ekufikeleleni ekubhaleni okungafunekiyo, kwaye unokugcinwa kwimo yokulinda okanye yeVBAT. I-BKPSRAM inokuchazwa (kwi-ETZPC) njengefikelelekayo ngesoftware ekhuselekileyo kuphela.

3.3

DDR3/DDR3L/LPDDR2/LPDDR3 isilawuli (DDRCTRL)

I-DDRCTRL idityaniswe ne-DDRPHYC ibonelela ngesisombululo esipheleleyo sojongano lwememori ye-DDR yenkqubo esezantsi yememori. · Enye ye-64-bit AMBA 4 AXI izibuko ujongano (XPI) · AXI iwotshi asynchronous kumlawuli · DDR memory cypher injini (DDRMCE) ebonisa AES-128 DDR on-the-fly bhala
uguqulelo oluntsonkothileyo/ukufunda ukucima. · Imigangatho exhaswayo:
Inkcazo ye-JEDEC DDR3 SDRAM, iJESD79-3E yeDDR3/3L ene-16-bit interface
Inkcazo yeJEDEC LPDDR2 SDRAM, JESD209-2E ye-LPDDR2 ene-16-bit interface
Inkcazo ye-JEDEC LPDDR3 SDRAM, JESD209-3B ye-LPDDR3 ene-16-bit interface
· Umcwangcisi ophucukileyo kunye nejeneretha yomyalelo we-SDRAM · Ububanzi bedatha obucwangcisiweyo obupheleleyo (i-16-bit) okanye ububanzi bedatha yesiqingatha (i-8-bit) · Inkxaso ye-QoS ephakamileyo kunye neklasi yetrafikhi ezintathu ekufundeni kunye neeklasi zetrafikhi ezimbini ekubhaleni · Iinketho zokuthintela indlala yendlela ephantsi ephambili · Ukuhambelana okuqinisekisiweyo kokubhala-emva kokufunda (WAR) kunye nokufunda-emva kokubhala (RAW)
Izibuko ze-AXI · Inkxaso ecwangcisiweyo yokhetho lobude obugqabhukileyo (4, 8, 16) · Bhala dibanisa ukuvumela ukubhala okuninzi kwidilesi enye ukuba kudityaniswe
bhala omnye · Uqwalaselo lwenqanaba elinye

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· Inkxaso ye-SDRAM ezenzekelayo yokungena kunye nokuphuma okubangelwa kukunqongophala kokufika kwentengiselwano ngexesha elicwangcisiweyo
· Inkxaso yokumisa iwotshi ezenzekelayo (LPDDR2/3) yokungena kunye nokuphuma okubangelwa kukunqongophala kokufika kwentengiselwano
· Inkxaso yokusebenza kwemowudi yamandla aphantsi okuzenzekelayo okubangelwa kukunqongophala kokufika kwentengiselwano ngexesha elicwangcisiweyo ngehardware yojongano lwamandla aphantsi
· Inkqubo yokupheyisha enokucwangciswa · Inkxaso yolawulo oluzenzekelayo okanye oluphantsi kwesoftware yokuzihlaziya nokuphuma kwayo · Inkxaso yokungena nokuphuma kwamandla anzulu phantsi kolawulo lwesoftware (LPDDR2 kunye
LPDDR3) · Inkxaso yohlaziyo lwerejista yemowudi ye-SDRAM ecacileyo phantsi kolawulo lwesoftware · Idilesi eguquguqukayo yemaphu ingqiqo ukuvumela isicelo esithile sokwenza imephu yomqolo, ikholamu,
amasuntswana ebhanki · Iinketho zolawulo zokuhlaziya ezikhethwe ngumsebenzisi · DDRPERFM ibhloko ehambelanayo yokunceda ukubeka iliso kunye nolungiso
I-DDRCTRL kunye ne-DDRPHYC inokuchazwa (kwi-ETZPC) njengefumaneka nge-software ekhuselekileyo kuphela.
I-DDRMCE (i-DDR memory cypher injini) iimpawu eziphambili zidweliswe ngezantsi: · Inkqubo ye-AXI yenkosi yebhasi/ujongano lwekhoboka (i-64-bit) · Uguqulelo oluntsonkothileyo olungaphakathi (lokubhala) kunye noguqulelo lokuntsonkotha (lokufundwa), ngokusekelwe kwifirewall elungisiweyo.
udweliso lwenkqubo · Imowudi yoguqulelo oluntsonkothileyo emibini kwingingqi nganye (ubuninzi bommandla omnye): akukho lufihlo (imo yokudlula),
imowudi yebhloka ye-cipher · Ukuqala kunye nokuphela kwemimandla echazwe nge-64-Kbyte granularity · Uhluzo oluhlala lukhona (ummandla 0): naluphi na ufikelelo olunikiweyo · Uhluzo lofikelelo lweNgingqi: akukho nanye.
I-block cipher exhaswayo: I-AES Imowudi yekhonkco exhaswayo · Imowudi yebhloko ene-AES cipher iyahambelana nemo ye-ECB echazwe kupapasho lwe-NIST lwe-FIPS 197 umgangatho woguqulelo oluphezulu (AES), kunye nomsebenzi onxulumene nokuphuma kwesitshixo esekwe kwi-algorithm ye-Keccak-400 epapashwe https://keccak.team webindawo. · Iseti enye yeerejista zesitshixo esitshixwayo kunye nesitshixo se-AHB.

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3.4

Idilesi ye-TrustZone yesilawuli sesithuba se-DDR (TZC)

I-TZC isetyenziselwa ukuhluza ukufikelela kokufunda/ukubhala kumlawuli we-DDR ngokwamalungelo e-TrustZone kwaye ngokwe-non-secure master (NSAID) ukuya kuthi ga kwimimandla ecwangciswayo elithoba: · Ulungelelwaniso oluxhaswa ngesoftware ethembekileyo kuphela · Iyunithi yokucoca enye · Imimandla elithoba:
INgingqi 0 isoloko ivuliwe kwaye igubungela lonke uluhlu lweedilesi. Imimandla 1 ukuya kwi-8 inesiseko esicwangcisiweyo-/idilesi yokuphela kwaye inokwabelwa kuyo
nayiphi na enye okanye zombini izihluzi. · Iimvume zokungena ezikhuselekileyo nezingakhuselekanga ezicwangcisiweyo kwindawo nganye · Ufikelelo olungakhuselekanga oluhluziweyo ngokwe-NSAID · Imimandla elawulwa sisihluzo esifanayo mayingangqubani · Iimowudi ezisilelayo ngempazamo kunye/okanye ziphazamise · Isakhono sokwamkela = 256 · Ingqiqo yomgcini wesango ukwenza kunye nokukhubaza isihluzo ngasinye · Ufikelelo oluqikelelwayo.

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3.5

Iindlela zokuQalisa

Ekuqalisweni, umthombo wokuqalisa osetyenziswa yi-ROM yokuqalisa yangaphakathi ikhethwa yi-BOOT pin kunye ne-OTP bytes.

Itheyibhile 2. Iindlela zokuqalisa

BOOT2 BOOT1 BOOT0 Indlela yokuqalisa yokuqala

Amagqabantshintshi

Linda umdibaniso ongenayo:

I-UART kunye ne-USB(1)

UART3/6 kunye ne-UART4/5/7/8 kwizikhonkwane ezingagqibekanga

Isixhobo se-USB esinesantya esiphezulu kwiOTG_HS_DP/DM izikhonkwane (2)

Uthotho olu-1 NOR UFlash(3) Uthotho NOR flash kwi QUADSPI(5)

I-e·MMC(3)

I-e·MMC kwi-SDMMC2 (ehlala ikho)(5)(6)

I-NAND flash(3)

I-SLC NAND flash kwi-FMC

Isiqalo sophuhliso (akukho nkumbulo ekhanyayo)

Isetyenziselwa ukufumana unikezelo lwe-debug ngaphandle kwesiqalo kwimemori edanyazayo (4)

Ikhadi le-SD(3)

Ikhadi le-SD kwiSDMMC1 (ehlala ikho)(5)(6)

Linda umdibaniso ongenayo:

0 UART kunye ne-USB (1) (3) USART3/6 kunye ne-UART4/5/7/8 kwizikhonkwane ezingagqibekanga

Isixhobo se-USB esinesantya esiphezulu kwiOTG_HS_DP/DM izikhonkwane (2)

Uthotho lweNAND olu-1(3) Uthotho lweNAND oludanyazayo kwiQUADSPI(5)

1. Inokukhutshazwa luseto lwe-OTP. 2. I-USB idinga iwotshi/ikristale ye-HSE (jonga i-AN5474 kwiifrikhwensi ezixhaswayo kunye nangaphandle kwesetingi ze-OTP). 3. Umthombo weboot ungatshintshwa luseto lweOTP (ngokomzekeloampLe yokuqala kwikhadi le-SD, emva koko e·MMC ngeseto ze-OTP). 4. I-Cortex®-A7 ingundoqo kwi-loop engapheliyo ukuguqula i-PA13. 5. Izikhonkwane ezihlala zikhona zingatshintshwa yi-OTP. 6. Kungenjalo, olunye ujongano lweSDMMC kunolu kusilela lungakhethwa yi-OTP.

Nangona i-boot yezinga eliphantsi lenziwa kusetyenziswa iiwotshi zangaphakathi, i-ST inike iipakethi zesofthiwe kunye neendawo ezinkulu zangaphandle ezifana ne-DDR, i-USB (kodwa ingaphelelanga) ifuna i-crystal okanye i-oscillator yangaphandle ukuba idibaniswe kwiikhonkwane ze-HSE.
Jonga i-RM0475 “STM32MP13xx advanced Arm®-based 32-bit MPUs” okanye AN5474 “Ukuqalisa nge-STM32MP13xx yophuhliso lwehardware yemigca” yemithintelo kunye neengcebiso malunga noqhagamshelo lwezikhonkwane ze-HSE kunye namaza axhasiweyo.

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3.6

Ulawulo lonikezelo lwamandla

3.6.1
Isilumkiso:

Iskimu sobonelelo lwamandla
· I-VDD lolona nikezelo lwe-I/Os kunye nenxalenye yangaphakathi egcinwe amandla ngexesha lemo yokulinda. Umthamo oluncedotagUluhlu lwe-e luyi-1.71 V ukuya ku-3.6 V (1.8 V, 2.5 V, 3.0 V okanye 3.3 V isimbo.)
I-VDD_PLL kunye ne-VDD_ANA kufuneka ziqhagamshelwe inkwenkwezi kwi-VDD. · VDDCPU yiCortex-A7 CPU ezinikeleyo voltage unikezelo, ixabiso layo lixhomekeke kwi
frequency efunwayo ye-CPU. I-1.22 V ukuya kwi-1.38 V kwimodi yokuqhuba. I-VDD kufuneka ibekho phambi kwe-VDDCPU. · VDDCORE ngowona mqulu wedijithalitage kwaye ihlala ivaliwe ngexesha lemo yokulinda. UmqulutagUluhlu lwe-e luyi-1.21 V ukuya kwi-1.29 V kwimodi yokuqhuba. I-VDD kufuneka ibekho phambi kwe-VDDCORE. · Iphini ye-VBAT inokudibaniswa nebhetri yangaphandle (1.6 V <VBAT <3.6 V). Ukuba akukho bhetri yangaphandle isetyenziswayo, le phini kufuneka iqhagamshelwe kwiVDD. · I-VDDA yi-analog (ADC/VREF), unikezelo voltage (1.62 V ukuya ku-3.6 V). Ukusebenzisa i-VREF + yangaphakathi idinga i-VDDA ilingana okanye ingaphezulu kweVREF + + 0.3 V. · Iphinikhodi ye-VDDA1V8_REG yimveliso yomlawuli wangaphakathi, exhunywe ngaphakathi kwi-USB PHY kunye ne-USB PLL. Umlawuli wangaphakathi we-VDDA1V8_REG wenziwa ukuba usebenze ngokungagqibekanga kwaye unokulawulwa yisoftware. Ihlala ivaliwe ngexesha lemo yokulinda.
Iphinikhodi ethi BYPASS_REG1V8 mayingaze ishiywe idada phezu kwamanzi. Kufuneka idityaniswe nokuba yi-VSS okanye kwi-VDD ukuze isebenze okanye ivale ivolthitagumlawuli. Xa i-VDD = 1.8 V, BYPASS_REG1V8 kufuneka imiselwe. · I-VDDA1V1_REG iphini yimveliso yomlawuli wangaphakathi, eqhagamshelwe ngaphakathi kwi-USB PHY. Umlawuli wangaphakathi we-VDDA1V1_REG wenziwa ukuba usebenze ngokungagqibekanga kwaye unokulawulwa yisoftware. Ihlala ivaliwe ngexesha lemo yokulinda.
· VDD3V3_USBHS lunikezelo lwe-USB olunesantya esiphezulu. UmqulutagUluhlu lwe-e yi-3.07 V ukuya ku-3.6 V.
VDD3V3_USBHS kufuneka ingabikho ngaphandle kokuba i-VDDA1V8_REG ikhona, kungenjalo umonakalo osisigxina ungenzeka kwi-STM32MP133C/F. Oku kufuneka kuqinisekiswe ngolandelelwano lwenqanaba le-PMIC okanye ngecandelo langaphandle kwimeko yokuphunyezwa kobonelelo lwamandla ombane.
· I-VDDSD1 kunye ne-VDDSD2 ngokulandelelanayo i-SDMMC1 kunye ne-SDMMC2 izibonelelo zamandla ekhadi le-SD ukuxhasa imowudi ye-ultra-high-speed.
· VDDQ_DDR lunikezelo lwe-DDR IO. I-1.425 V ukuya kwi-1.575 V yokudibanisa iinkumbulo ze-DDR3 (1.5 V isimbo.)
I-1.283 V ukuya kwi-1.45 V yokudibanisa iinkumbulo ze-DDR3L (1.35 V isimbo.)
I-1.14 V ukuya kwi-1.3 V yokudibanisa i-LPDDR2 okanye iinkumbulo ze-LPDDR3 (uchwethezo lwe-1.2 V.)
Ngexesha lokunyuswa kombane kunye nenqanaba lokuhla, kufuneka kuhlonitshwe ezi mfuno zilandelayo zolandelelwano lwamandla:
· Xa i-VDD ingaphantsi kwe-1 V, ezinye izixhobo zombane (VDDCORE, VDDCPU, VDDSD1, VDDSD2, VDDA, VDDA1V8_REG, VDDA1V1_REG, VDD3V3_USBHS, VDDQ_DDR) kufuneka zihlale ngaphantsi kweVDD + 300 mV.
· Xa i-VDD ingaphezulu kwe-1 V, zonke izixhobo zombane zizimele.
Ngexesha lokuhla kwamandla, i-VDD inokuba sezantsi okwethutyana kunezinye izibonelelo kuphela ukuba amandla anikezelweyo kwi-STM32MP133C/F ahlala engaphantsi kwe-1 mJ. Oku kuvumela i-decoupling capacitors yangaphandle ukuba ikhutshwe ngamaxesha ahlukeneyo ngexesha lesigaba sokunciphisa amandla.

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V 3.6
VBOR0 1

Umzobo 2. Ukulandelelana kwamandla-up / phantsi

STM32MP133C/F

VDDX(1) VDD

3.6.2
Qaphela: 26/219

0.3

Ukuvula amandla

Imo yokusebenza

Amandla-phantsi

ixesha

Indawo yonikezelo engasebenziyo

VDDX < VDD + 300 mV

I-VDDX ezimeleyo kwi-VDD

MSv47490V1

1. I-VDDX ibhekisela kulo naluphi na unikezelo lwamandla phakathi kweVDDCORE, VDDCPU, VDDSD1, VDDSD2, VDDA, VDDA1V8_REG, VDDA1V1_REG, VDD3V3_USBHS, VDDQ_DDR.

Umphathi wobonelelo lwamandla

Izixhobo zinomsebenzi odityanisiweyo wokusetha ngokutsha (i-POR)/ ukuseta kwakhona amandla ezantsi (i-PDR) edityaniswe ne-Browout yokuseta ngokutsha (BOR) isiphaluka:
Ukusetha kwakhona umbane (POR)
Umphathi we-POR ubeka esweni unikezelo lwamandla e-VDD kwaye aluthelekise kumda osisigxina. Izixhobo zihlala zikwimo yokuseta kwakhona xa iVDD ingaphantsi kwalo mqobo, · Ukuseta kwakhona amandla-phantsi (PDR)
Umphathi we-PDR ubeka esweni unikezelo lwamandla e-VDD. Ukusetha kwakhona kwenziwa xa i-VDD iwela ngaphantsi komda omiselweyo.
Ukusetha kwakhona iBrown (BOR)
Umphathi we-BOR ubeka esweni umbane weVDD. Imida emithathu ye-BOR (ukusuka kwi-2.1 ukuya kwi-2.7 V) inokuqwalaselwa ngokusebenzisa ii-bytes zokukhetha. Ukusetha kwakhona kwenziwa xa i-VDD iwela ngaphantsi kwalo mqobo.
· Ukuseta kwakhona umbane nge-VDDCORE (POR_VDDCORE) Umphathi we-POR_VDDCORE ubeka esweni unikezelo lwamandla e-VDDCORE aze aluthelekise kumda osisigxina. I-domain ye-VDDCORE ihlala ikwimowudi yokusetha ngokutsha xa i-VDDCORE ingaphantsi kwalo mqobo.
· Ukuseta ngokutsha umbane kwi-VDDCORE (PDR_VDDCORE) Umphathi we-PDR_VDDCORE ubeka esweni unikezelo lombane lwe-VDDCORE. Ukusetha kwakhona i-domain ye-VDDCORE kuveliswa xa i-VDDCORE yehla ngaphantsi komda omiselweyo.
· Power-on-reset VDDCPU (POR_VDDCPU) Umphathi we-POR_VDDCPU ubeka esweni unikezelo lombane lwe-VDDCPU kwaye aluthelekise kumda osisigxina. I-domain ye-VDDCPU ihlala ikwimowudi yokusetha ngokutsha xa i-VDDCORE ingaphantsi kwalo mqobo.
Iphini ye-PDR_ON igcinelwe iimvavanyo zemveliso ye-STMicroelectronics kwaye kufuneka ihlale iqhagamshelwe kwi-VDD kwisicelo.

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3.7

Isicwangciso samandla aphantsi

Kukho iindlela ezininzi zokunciphisa ukusetyenziswa kwamandla kwi-STM32MP133C/F: · Ukunciphisa ukusetyenziswa kwamandla ngokucothisa iiwotshi ze-CPU kunye/okanye
iiwotshi zematrix yebhasi kunye/okanye nokulawula iiwotshi zeperipheral. · Gcina ukusetyenziswa kwamandla xa i-CPU i-IDLE, ngokukhetha phakathi kwezinto ezikhoyo ezisezantsi-
iindlela zamandla ngokweemfuno zesicelo somsebenzisi. Oku kuvumela ukuchaneka okuhle phakathi kwexesha elifutshane lokuqalisa, ukusetyenziswa kwamandla aphantsi, kunye nemithombo ekhoyo yokuvuka, ukuba ifezekiswe. · Sebenzisa iDVFS (dynamic voltage kunye ne-frequency scaling) iindawo zokusebenza ezilawula ngokuthe ngqo i-CPU frequency frequency kunye nonikezelo lwemveliso ye-VDDCPU.
Iindlela zokusebenza zivumela ukuhanjiswa kwewotshi kwiindawo ezahlukeneyo zenkqubo kunye namandla enkqubo. Imo yokusebenza yesixokelelwano iqhutywa yi-MPU sub-system.
Inkqubo esezantsi yeMPU iindlela zamandla aphantsi zidweliswe ngezantsi: · Lala: Iiwotshi ze-CPU zimisiwe kwaye i(ii)wotshi zeperipheral zisebenza njenge.
isetwe ngaphambili kwi-RCC (seta ngokutsha kunye nesilawuli sewotshi). · CStop: Iiwotshi ze-CPU ezijikelezayo zimisiwe. · CStandby: VDDCPU OFF
Iimowudi ze-CS zokulala kunye ne-CStop zamandla aphantsi zifakwe yi-CPU xa uqhuba i-WFI (linda ukuphazamisa) okanye i-WFE (linda isiganeko) imiyalelo.
Iindlela zokusebenza zesixokelelwano ezifumanekayo zezi zilandelayo: · Qhuba (inkqubo ekusebenzeni kwayo ngokupheleleyo, iVDDCORE, VDDCPU kunye newotshi ON) · Misa (iiwotshi IVILE) · LP-Stop (iiwotshi VALIWE) · LPLV-Stop (iiwotshi OFF, VDDCORE kunye neVDDCPU inqanaba lonikezelo inokuthotywa) · LPDDCPUstop OFF,VDD-Stop2, VDDCPU ezantsi · Imo elindileyo (VDDCPU, VDDCORE, kunye neewotshi OFF)

Itheyibhile 3. Inkqubo ngokuchasene ne-CPU imo yamandla

Indlela yamandla enkqubo

ICPU

Imo yokuqhuba

CRun okanye Lala

Imowudi yokuyeka i-LP-Yeka imowudi ye-LPLV-Yeka imowudi ye-LPLV-Stop2
Imo yokulinda

CStop okanye CStandby CStandby

3.8

Seta kwakhona kunye nesilawuli sewotshi (RCC)

Iwashi kunye nesilawuli sokusetha kwakhona silawula ukuveliswa kwazo zonke iiwashi, kunye ne-clock gating, kunye nokulawulwa kwenkqubo kunye ne-peripheral resets.RCC inikeza ukuguquguquka okuphezulu ekukhethweni kwemithombo yewashi kwaye ivumela ukusetyenziswa kwemilinganiselo yewashi ukuphucula ukusetyenziswa kwamandla. Ukongeza, kwezinye iiperipherals zonxibelelwano ezikwaziyo ukusebenza nazo

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3.8.1 3.8.2

iindawo ezimbini ezahlukeneyo zewotshi (inokuba yiwotshi yojongano lwebhasi okanye ikloko yewotshi ye-kernel), i-frequency yenkqubo inokutshintshwa ngaphandle kokuguqula i-baudrate.
Ulawulo lwewotshi
Izixhobo zifakela ii-oscillator ezine zangaphakathi, ii-oscillator ezimbini ezine-crystal yangaphandle okanye i-resonator, i-oscillators ezintathu zangaphakathi kunye nexesha lokuqalisa ngokukhawuleza kunye nee-PLL ezine.
I-RCC ifumana amagalelo omthombo wewotshi alandelayo: · Ii-oscillators zangaphakathi:
64 MHz HSI iwotshi (1% ukuchaneka) 4 MHz CSI iwotshi 32 kHz LSI iwotshi · Oscillators lwangaphandle: 8-48 MHz HSE iwotshi 32.768 kHz LSE iwotshi
I-RCC ibonelela ngee-PLL ezine: · I-PLL1 enikezelwe kwi-CPU yokuwasha · PLL2 ibonelela:
iiwotshi ze-AXI-SS (kubandakanywa i-APB4, APB5, AHB5 kunye neebhulorho ze-AHB6) iiwotshi ze-DDR interface · i-PLL3 ibonelela: iiwotshi ze-AHB ye-Multi-Layer kunye ne-peripheral bus matrix (kuquka i-APB1,
APB2, APB3, APB6, AHB1, AHB2, kunye ne-AHB4) iiwotshi zekernel zeperipherals · PLL4 enikezelwe ekuveliseni iiwotshi zekernel ze peripherals ezahlukeneyo
Inkqubo iqala kwiwotshi ye-HSI. Usetyenziso lomsebenzisi lunokukhetha uqwalaselo lwewotshi.
Imithombo yokusetha kwakhona inkqubo
Ukusetha kwakhona umbane kuqalisa zonke iirejista ngaphandle kwe-debug, inxalenye ye-RCC, inxalenye ye-RTC kunye neerejista zesimo solawulo lwamandla, kunye ne-Backup power domain.
Ukusetha kwakhona kwesicelo kuveliswa ukusuka kwenye yemithombo elandelayo: · ukusetha kwakhona kwi-NRST pad · ukusetha kwakhona ukusuka kwi-POR kunye ne-PDR yesignali (ngokuqhelekileyo ebizwa ngokuba yi-power-on reset) · ukusetha kwakhona ukusuka kwi-BOR (ngokuqhelekileyo ebizwa ngokuba yi-brownout) · ukusetha kwakhona kwi-watchdog ezimeleyo 1 · ukusetha kwakhona kwi-watchdog ezimeleyo 2 · inkqubo yesofthiwe iphinda isetyenziswe kwakhona kwi-Cortex ye-Corte (HCPSE) inkqubo ye-software yokusetha kwakhona kwi-Cortex, i-HCPSE uphawu luvuliwe
Ukusetha kwakhona inkqubo kuveliswa ukusuka komnye wale mithombo ilandelayo: · ukusetha kwakhona kwesicelo · ukusetha kwakhona ukusuka kwi-POR_VDDCORE uphawu · ukuphuma kwimo yokulinda ukuya kwimo yokusebenza.

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Ukusetha ngokutsha iprosesa yeMPU kuveliswa komnye wale mithombo ilandelayo: · ukusetha kwakhona inkqubo · ngalo lonke ixesha iMPU iphuma kwi-CStandby · ukusetha ngokutsha kwesoftware MPU kwiCortex-A7 (CPU)

3.9

Injongo ngokubanzi igalelo/iziphumo (GPIOs)

Nganye yezikhonkwane ze-GPIO zinokuqwalaselwa ngesofthiwe njengemveliso (i-push-pull okanye i-open-drain, kunye okanye ngaphandle kokutsalwa okanye ukutsalwa phantsi), njengegalelo (kunye okanye ngaphandle kokutsalwa okanye ukutsalwa phantsi) okanye njengomsebenzi ongomnye we-peripheral. Uninzi lwezikhonkwane zeGPIO kwabelwana ngazo kunye nemisebenzi yedijithali okanye enye ye-analog. Zonke ii-GPIO ziphezulu-ngoku-zinamandla kwaye zinokukhetha isantya sokulawula ngcono ingxolo yangaphakathi, ukusetyenziswa kwamandla kunye nokukhutshwa kwe-electromagnetic.
Emva kokusetha kwakhona, zonke ii-GPIO zikwimo ye-analog ukunciphisa ukusetyenziswa kwamandla.
Ulungelelwaniso lwe-I/O lunokutshixwa ukuba luyafuneka ngokulandela ulandelelwano oluthile ukuze kuthintelwe ukubhala okungeyonyani kwiirejista ze-I/Os.
Zonke izikhonkwane zeGPIO zinokusetwa ngokwazo njengezikhuselekileyo, nto leyo ethetha ukuba ukufikelela kwesoftware kwezi GPIOs kunye neeperipherals ezinxulumeneyo ezichazwa njengezikhuselekileyo zithintelwe kwisoftware esebenza kwiCPU.

3.10
Phawula:

Umlawuli wokhuseleko weTrustZone (ETZPC)
I-ETZPC isetyenziselwa ukuqwalasela ukhuseleko lweTrustZone yeenkosi zebhasi kunye namakhoboka aneempawu zokhuseleko olunocwangciso (izixhobo ezikhuselekileyo). Umzekelo: · On-chip SYSRAM ubungakanani bommandla okhuselekileyo unokucwangciswa. · Iiperipherals ze-AHB kunye ne-APB zinokwenziwa zikhuseleke okanye zingakhuselekanga. · I-AHB SRAM inokwenziwa ikhuseleke okanye ingakhuselekanga.
Ngokungagqibekanga, i-SYSRAM, i-AHB SRAMs kunye neeperipherals ezikhuselekileyo zimiselwe ukufikelela kuphela, ngoko ke, akufikelelwanga ziinkosi ezingakhuselekanga ezifana ne-DMA1/DMA2.

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3.11

Bus-interconnect matrix
Izixhobo zibonakalisa i-matrix yebhasi ye-AXI, enye i-matrix yebhasi ye-AHB engundoqo kunye neebhulorho zebhasi ezivumela abaphathi bebhasi ukuba badityaniswe namakhoboka ebhasi (jonga umfanekiso ongezantsi, amachaphaza amele unxibelelwano olunikwe amandla/ubukhoboka).
Umzobo 3. STM32MP133C/F matrix yebhasi

MDMA

I-SDMMC2

I-SDMMC1

I-DBG Ukusuka kwi-MLAHB qhagamshela i-USBH

ICPU

I-ETH1 ETH2

128-bit

AXIM

M1 M2

M11

S1 S2 S3 S4 S5 S6 S7 S8 S9

Ikhoboka elimiselweyo AXIMC

NIC-400 AXI 64 bits 266 MHz – 10 iinkosi / 10 amakhoboka

Ukusuka kunxibelelwano lwe-AXIM DMA1 DMA2 USBO DMA3

M1 M2

M3 M4

M6 M7

S4 S5 Interconnect AHB 32 bits 209 MHz – 8 masters / 6 amakhoboka

DDRCTRL 533 MHz AHB ibhulorho ukuya AHB6 Ukuya MLAHB uqhagamshelwano FMC/NAND QUADSPI SYSRAM 128 KB ROM 128 KB AHB ibhulorho ukuya AHB5 APB ibhulorho ukuya APB5 APB ibhulorho ukuya DBG APB
I-AXI 64 izibuko lekhoboka elilungelelanisiweyo AXI 64 izibuko lekhoboka elilungelelanisiweyo AXI 64 izibuko lekhoboka elilungelelanisiweyo AXI 64 izibuko lekhoboka elilungelelanisiweyo AHB 32 izibuko lekhoboka elilungeleleneyo AHB 32 izibuko lekhoboka elilungeleleneyo AHB 32 izibuko lekhoboka elilungeleleneyo AHB 32
Ibhulorho eya kwi-AHB2 SRAM1 SRAM2 SRAM3 Ukuya kwi-AXIM yoqhagamshelwano lweBhulorho ukuya kwi-AHB4
MSv67511V2

I-MLAHB

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3.12

Abalawuli beDMA
Izixhobo zibonisa le minqongo ilandelayo ye-DMA ukukhulula umsebenzi we-CPU: · unikezelo lwenkumbulo ethe ngqo (MDMA)
I-MDMA ngumlawuli we-DMA wesantya esiphezulu, ojongene nazo zonke iintlobo zokudluliselwa kwememori (i-peripheral-to-memory, imemori-to-memory, imemori-to-peripheral), ngaphandle kwesenzo se-CPU. Ibonisa i-interface ye-AXI enkulu. I-MDMA iyakwazi ukusebenzisana nabanye abalawuli be-DMA ukwandisa ubunakho be-DMA obuqhelekileyo, okanye inokulawula izicelo ze-DMA zeperipheral ngokuthe ngqo. Ngalinye iziteshi ze-32 zingenza ukudluliselwa kwebhloko, ukudluliselwa kwebhloko ngokuphindaphindiweyo kunye nokudluliselwa koluhlu oludibeneyo. I-MDMA inokusetwa ukwenza ugqithiselo olukhuselekileyo kwiinkumbulo ezikhuselekileyo. · Abalawuli abathathu be-DMA (abakhuselekanga i-DMA1 kunye ne-DMA2, kunye ne-DMA3 ekhuselekileyo) Umlawuli ngamnye une-AHB ye-double-port, ye-16 iyonke i-XNUMX engakhuselekanga kunye ne-XNUMX iziteshi ze-DMA ezikhuselekileyo zokwenza i-FIFO-based transfer transfers block.
Iiyunithi ezimbini ze-DMAMUX ze-multiplex kwaye zihambisa izicelo ze-DMA ze-peripheral kubalawuli abathathu be-DMA, kunye nokuguquguquka okuphezulu, ukwandisa inani lezicelo ze-DMA ezihamba ngaxeshanye, kunye nokuvelisa izicelo ze-DMA ezivela kwi-peripheral output triggers okanye iziganeko ze-DMA.
Iimephu ze-DMAMUX1 izicelo ze-DMA ezivela kwiiperipherals ezingakhuselekanga ukuya kwi-DMA1 kunye ne-DMA2 channels. Iimephu ze-DMAMUX2 izicelo ze-DMA ezivela kwiiperipherals ezikhuselekileyo ukuya kumajelo e-DMA3.

3.13

Ukuphazamiseka okwandisiweyo kunye nomlawuli wesiganeko (EXTI)
Ukuphazamiseka okwandisiweyo kunye nomlawuli wesiganeko (EXTI) ulawula i-CPU kunye nokuvuka kwenkqubo ngokusebenzisa amagalelo omcimbi oqwalaselweyo kunye ngqo. I-EXTI inikezela ngezicelo zokuvuka kulawulo lwamandla, kwaye ivelise isicelo sokuphazamiseka kwi-GIC, kunye neziganeko kwigalelo lesiganeko se-CPU.
Izicelo zokuvuswa kwe-EXTI zivumela inkqubo ukuba ivuswe kwimowudi yokuMisa, kunye ne-CPU ukuba ivuswe kwiimowudi ze-CStop kunye ne-CStandby.
Isicelo sophazamiseko kunye nokuveliswa kwesicelo somsitho nako kungasetyenziswa kwimowudi yokuSebenza.
I-EXTI ikwabandakanya ukhetho lwe-EXTI IOport.
Uphazamiseko ngalunye okanye isiganeko sinokusetwa njengokhuseleko ukuze uthintele ukufikelela kwisoftware ekhuselekileyo kuphela.

3.14

Iyunithi yokubala yokubala i-Cyclic redundancy (CRC)
I-CRC (i-cyclic redundancy check) iyunithi yokubala isetyenziselwa ukufumana ikhowudi ye-CRC usebenzisa i-polynomial ecwangcisiweyo.
Phakathi kwezinye izicelo, iindlela ezisekelwe kwi-CRC zisetyenziselwa ukuqinisekisa ukuhanjiswa kwedatha okanye ukugcinwa kwemfezeko. Kwinqanaba lomgangatho we-EN/IEC 60335-1, banikezela ngeendlela zokuqinisekisa ukuthembeka kwememori ye-flash. Iyunithi yokubala ye-CRC inceda ukuqulunqa isiginitsha yesoftware ngexesha lokuqhuba, ukuze ithelekiswe nesiginitsha yereferensi eveliswe ngexesha lekhonkco kwaye igcinwe kwindawo enikiweyo yememori.

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3.15

Isilawuli sememori esiguquguqukayo (FMC)
Isilawuli se-FMC iimpawu eziphambili zezi zilandelayo: · Ujongano olunesixhobo esinenkumbulo engatshintshiyo equka:
NOR inkumbulo yeflash eStatic okanye ipseudo-static yememori yofikelelo olungacwangciswanga (SRAM, PSRAM) NAND flash memory ene-4-bit/8-bit BCH hardware ECC · 8-,16-bit data bus ububanzi · Ulawulo oluzimeleyo lwetshiphu-khetha kwibhanki yenkumbulo nganye · Uqwalaselo oluzimeleyo lwebhanki nganye yenkumbulo · Bhala FIFO
Iirejista zoqwalaselo ze-FMC zingenziwa zikhuseleke.

3.16

Ujongano lwenkumbulo ye-Quad-SPI ephindwe kabini (QUADSPI)
I-QUADSPI lujongano olukhethekileyo lonxibelelwano olujolise kwinkumbulo enye, ezimbini okanye ezine-quad SPI. Ingasebenza ngayo nayiphi na kwezi ndlela zintathu zilandelayo: · Imo engathanga ngqo: yonke imisebenzi yenziwa kusetyenziswa iirejista zeQUADSPI. · Imo yovolo-bume: irejista yemeko yememori yeflash yangaphandle ifundwa ngamaxesha athile kwaye
uphazamiseko lungenziwa kwimeko yokumisela iflegi. · Imowudi yeMemori yememori: imemori edanyazayo yangaphandle izotywe kwisithuba sedilesi
kwaye ibonwa yinkqubo ngokungathi yinkumbulo yangaphakathi.
Zombini i-output kunye nomthamo unokunyuswa ngokuphindwe kabini kusetyenziswa imowudi ye-flash-flash, apho iinkumbulo zombane ze-Quad-SPI zifikelelwa ngaxeshanye.
I-QUADSPI idibaniswe nebhloko yokulibaziseka (i-DLYBQS) evumela ukuxhaswa kwe-frequency data yangaphandle ngaphezu kwe-100 MHz.
Iirejista zokucwangcisa i-QUADSPI zinokukhuseleka, kunye nebhloko yayo yokulibaziseka.

3.17

Iziguquli ze-Analog-to-digital (ADC1, ADC2)
Izixhobo zifakela iziguquli ezimbini ze-analog-to-digital, isisombululo sayo sinokuqwalaselwa kwi-12-, 10-, 8- okanye 6-bit. I-ADC nganye yabelana ukuya kwi-18 iziteshi zangaphandle, zenza uguqulo kwimodi yokudubula enye okanye ukuskena. Kwimo yokuskena, uguqulelo oluzenzekelayo lwenziwa kwiqela elikhethiweyo lamagalelo e-analog.
Zombini ii-ADCs zinonxibelelwano lwebhasi olukhuselekileyo.
I-ADC nganye inokubonelelwa ngumlawuli we-DMA, ngaloo ndlela ivumela ukuhanjiswa ngokuzenzekelayo kwe-ADC eguqulelwe amaxabiso kwindawo yokusingwa ngaphandle kwesenzo sesoftware.
Ukongeza, i-analog watchdog feature inokubeka iliso ngokuchanekileyo ivolthi eguquliweyotage yenye, ezinye okanye zonke iitshaneli ezikhethiweyo. Uphazamiseko lwenziwa xa ivolthi iguquliwetage ingaphandle kwemida ecwangcisiweyo.
Ukwenzela ukungqamanisa uguqulo lwe-A/D kunye nezibali-xesha, ii-ADCs zinokuvuswa yiyo nayiphi na i-TIM1, TIM2, TIM3, TIM4, TIM6, TIM8, TIM15, LPTIM1, LPTIM2 kunye nezibali-xesha zeLPTIM3.

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3.18

Isivamvo sobushushu
Izixhobo zifakela inzwa yobushushu eyenza i-voltage (VTS) eyohluka ngokuhambelana neqondo lobushushu. Esi sivamvo sobushushu siqhagamshelwe ngaphakathi kwi-ADC2_INP12 kwaye inokulinganisa iqondo lobushushu besixhobo ukusuka kwi-40 ukuya ku-+125 °C ngokuchaneka kwe-±2%.
Isivamvo sobushushu sinomgca olungileyo, kodwa kufuneka silinganiswe ukuze kufumaneke ukuchaneka okupheleleyo komlinganiselo wobushushu. Njengoko i-sensor ye-sensor yeqondo lokushisa iyahluka ukusuka kwi-chip ukuya kwi-chip ngenxa yokuhluka kwenkqubo, i-sensor yangaphakathi yeqondo lokushisa engalinganiyo ifanelekile kwizicelo ezibona utshintsho lweqondo lokushisa kuphela. Ukuphucula ukuchaneka komlinganiselo wesivamvo seqondo lobushushu, isixhobo ngasinye silungiswa ngokwasefektri yi-ST. Idatha yokulinganisa iqondo lokushisa kwefektri igcinwe yi-ST kwindawo ye-OTP, efikelelekayo kwimodi yokufunda kuphela.

3.19

Isivamvo sobushushu sedijithali (DTS)
Izixhobo zifakela inzwa yobushushu obuphuma rhoqo. I-DTS ibala i-frequency esekelwe kwi-LSE okanye kwi-PCLK ukubonelela ngolwazi lobushushu.
Imisebenzi elandelayo iyaxhaswa: · ukuphazamisa ukuvelisa ngeqondo lobushushu · ukuveliswa komqondiso wokuvuka ngomlinganiselo wobushushu

3.20
Phawula:

Ukusebenza kweVBAT
I-domain yamandla ye-VBAT iqulethe i-RTC, iirejista zokulondoloza kunye ne-SRAM yokugcina.
Ukuze kunyuswe ubude bexesha lebhetri, lo mmandla wamandla unikezelwa yiVDD xa ikhona okanye ngevolthi.tage ifakwe kwi-VBAT pin (xa unikezelo lweVDD lungekho). Amandla e-VBAT atshintshiwe xa i-PDR ibona ukuba i-VDD iye yehla ngaphantsi kwenqanaba le-PDR.
IVoltage kwipini ye-VBAT inokubonelelwa ngebhetri yangaphandle, i-supercapacitor okanye ngokuthe ngqo ngeVDD. Kwimeko yamva, imowudi yeVBAT ayisebenzi.
Ukusebenza kweVBAT kuyasebenza xa iVDD ingekho.
Akukho nasinye kwezi ziganeko (iziphazamiso zangaphandle, uTAMP isiganeko, okanye i-alamu ye-RTC / iziganeko) ziyakwazi ukubuyisela ngokuthe ngqo unikezelo lwe-VDD kunye nokunyanzela isixhobo ngaphandle komsebenzi we-VBAT. Nangona kunjalo, uTAMP iziganeko kunye ne-alamu ye-RTC / iziganeko zingasetyenziselwa ukuvelisa isignali kwi-circuitry yangaphandle (ngokuqhelekileyo i-PMIC) enokubuyisela ukunikezelwa kweVDD.

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3.21

Umqulutagi-reference buffer (VREFBUF)
Izixhobo zifakela umqulutagi-reference buffer enokusetyenziswa njengomthamotage ireferensi yee-ADCs, kananjalo njengomqulutage ireferensi kumacandelo angaphandle ngokusebenzisa VREF + pin. I-VREFBUF inokukhuseleka. I-VREFBUF yangaphakathi ixhasa iivolthi ezinetages: · 1.65 V · 1.8 V · 2.048 V · 2.5 V Ivolthi yangaphandletagireferensi ye-e inokubonelelwa nge-VREF+ pin xa i-VREFBUF yangaphakathi icinyiwe.
Umzobo 4. Voltagi-reference buffer

VREFINT

–

VREF+

VSSA

MSv64430V1

3.22

Isihluzo seDijithali semodyuli ye-sigma-delta (DFSDM)
Izixhobo zifakela i-DFSDM enye kunye nenkxaso yeemodyuli ezimbini zeefilitha zedijithali kunye neziteshi ezine ze-serial zangaphandle ze-serial (i-transceivers) okanye ngokutshintshela iigalelo ezine zangaphakathi ezifanayo.
I-DFSDM idibanisa iimodyuli zangaphandle kwisixhobo kwaye yenza ukuhluzwa kwedijithali kwimithombo yedatha efunyenweyo. Iimodyuli zisetyenziselwa ukuguqula iimpawu ze-analog zibe yimijelo ye-digital-serial eyenza amagalelo e-DFSDM.
I-DFSDM inokuphinda ijongane ne-PDM (i-pulse-density modulation) ii-microphone kwaye yenze i-PDM kwi-PCM yokuguqulwa kunye nokucoca (i-hardware ikhawuleza). I-DFSDM ineempembelelo ezikhethiweyo zomjelo wedatha ukusuka kwii-ADCs okanye kwimemori yesixhobo (ngokudluliselwa kwe-DMA/CPU kwi-DFSDM).
Ii-transceivers zeDFSDM zixhasa iifomathi ezininzi ze-serial-interface (ukuxhasa iimodyuli ezahlukeneyo). Iimodyuli zokucoca idijithali zeDFSDM zenza inkqubo yedijithali ngokweparameters zokucoca ezichazwe ngumsebenzisi ukuya kuthi ga kwi-24-bit isisombululo sokugqibela se-ADC.

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Iperipheral yeDFSDM ixhasa: · Iitshaneli ezine eziphindaphindwayo zedijithali zothotho:
ujongano lwe-SPI olunoqwalaselo lokudibanisa iimodyuli ezahlukeneyo eziqwalaselweyo ezinekhowudi ye-1-wire interface PDM (i-pulse-density modulation) igalelo le-microphone igalelo lobuninzi bewotshi frequency ukuya kuthi ga kwi-20 MHz (10 MHz ye-Manchester coding) imveliso yewotshi yeemodyuli (0 ukuya kuma-20 MHz) · Igalelo elilolunye ukusuka kwi-invest ye-digital igalelo langaphakathi ukuya kwi-data ye-16 yangaphakathi kwi-data ye-1:- up imijelo (DMA) · Iimodyuli ezimbini zesihluzi sedijithali ezinokulungiswa kophawu lwedijithali: Isihluzo seSincx: ucwangco/uhlobo (5 ukuya ku-XNUMX), ngaphezuluampling ratio (1 ukuya 1024) integrator: oversampUmlinganiselo we-ling (1 ukuya ku-256) · Ukuya kwi-24-bit yesisombululo sedatha yesiphumo, ifomati yedatha yesiphumo esayiniweyo · Ulungiso oluzenzekelayo lwe-offset yedatha (i-offset egcinwe kwirejista ngumsebenzisi) · Ukuguqulwa okuqhubekayo okanye okukodwa · Ukuqalisa-ukuguqulwa okubangelwa yi: isofthiwe ibangela ixesha langaphakathi iziganeko zangaphandle ukuqala-of-ukuguqulwa ngokuhambelana nemodyuli yokuqala yokucoca idijithali ephantsi (DFSDM) kunye nedatha ye-Analoguering yedatha ye-Analoguering iirejista zomda omiselweyo wokucoca idijithali yeSincx (umyalelo = 1 ukuya ku-3,
ngaphezuluampling ratio = 1 ukuya 32) igalelo ukusuka kwidatha yesiphumo sokugqibela okanye kwigalelo elikhethiweyo ledijithali itshaneli zesiriyeli eziqhubekayo ngokuzimeleyo kuguqulo oluqhelekileyo · Umtshina wesekethe emfutshane ukubona amaxabiso engeniso ye-analog (ezantsi kunye noluhlu oluphezulu): ukuya kuthi ga kwi-8-bit counter ukukhangela i-1 ukuya kwi-256 ngokulandelelana kwe-0 okanye i-1 ngokulandelelana kwedatha yedatha Isiganeko somlindi we-analog okanye kwisiganeko se-short-circuit detector · I-detector egqithisileyo: ukugcinwa kobuncinci kunye nobuninzi bexabiso ledatha yokugqibela yokuguqulwa ihlaziywe yi-software · I-DMA ikhono lokufunda idatha yokuguqulwa kokugqibela · Ukuphazamisa: ukuphela kokuguqulwa, ukugqithiswa, umlindi we-analog, isiphaluka esifutshane, igalelo le-serial channel ukungabikho kwewashi · "Rhoqo" ukuguqulwa kokuguqulwa kwewashi okanye "ukuguqulwa" ixesha okanye nakwimo eqhubekayo
ngaphandle kokuba nayo nayiphi na impembelelo kwixesha "elitofwayo" loguqulelo "olutofelweyo" lwexesha elichanekileyo kunye nokuguqulwa okuphezulu okuphambili.

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3.23

Inyani yokuvelisa inombolo engaqhelekanga (RNG)
Izixhobo zifakela i-RNG enye ehambisa amanani angama-32-bit random aveliswa yisekethe ye-analog edibeneyo.
I-RNG inokuchazwa (kwi-ETZPC) njengefumaneka ngesoftware ekhuselekileyo kuphela.
I-RNG yokwenyani iqhagamshela kwi-AES ekhuselekileyo kunye neeperipherals ze-PKA ngebhasi enikezelweyo (engafundekiyo yi-CPU).

3.24

I-Cryptographic kunye ne-hash processors (i-CRYP, i-SAES, i-PKA kunye ne-HASH)
Izixhobo zifakela iprosesa enye ye-cryptographic exhasa i-algorithms ye-cryptographic ephezulu ehlala ifuneka ukuze kuqinisekiswe ubumfihlo, ukuqinisekiswa, imfezeko yedatha kunye nokungachasi xa utshintshiselana imiyalezo nentanga.
Izixhobo ziphinde zifake i-DPA ekhuselekileyo yokumelana ne-AES 128- kunye ne-256-bit key (SAES) kunye ne-PKA ye-encryption ye-hardware / i-accelerator ye-decryption, kunye nebhasi ye-hardware ezinikeleyo engafikelelekiyo yi-CPU.
Iimpawu eziphambili ze-CRYP: · DES/TDES (umgangatho wofihlo lwedatha/umgangatho wofihlo lwedatha kathathu): ECB (yombane
codebook) kunye CBC (cipher block chaining) chaining algorithms, 64-, 128- okanye 192-bit isitshixo · AES (advanced encryption standard): ECB, CBC, GCM, CCM, kunye CTR (counter mode) chaining algorithms, 128-, 192- okanye 256-bit key
Iimpawu eziphambili ze-HASH kwindawo yonke: · SHA-1, SHA-224, SHA-256, SHA-384, SHA-512, SHA-3 (ukhuseleko lwe-HASH algorithms) · HMAC
I-cryptographic accelerator ixhasa ukuveliswa kwesicelo se-DMA.
I-CRYP, i-SAES, i-PKA kunye ne-HASH inokuchazwa (kwi-ETZPC) njengefikeleleke nge-software ekhuselekileyo kuphela.

3.25

Ukuqalisa kunye nokhuseleko kunye nolawulo lwe-OTP (BSEC)
I-BSEC (i-boot kunye nokhuseleko kunye nolawulo lwe-OTP) yenzelwe ukulawula i-OTP (ixesha elinye elicwangcisiweyo) ibhokisi ye-fuse, esetyenziselwa ukugcinwa kwe-non-volatile yokugcinwa kwesixhobo kunye neeparameters zokhuseleko. Inxalenye ethile ye-BSEC kufuneka iqwalaselwe ukuba ifikeleleke ngesoftware ekhuselekileyo kuphela.
I-BSEC inokusebenzisa amagama e-OTP yokugcina i-HWKEY 256-bit ye-SAES (i-AES ekhuselekileyo).

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3.26

Izibali-xesha kunye nabagadi
Ezi zixhobo zibandakanya izibali-xesha ezibini zolawulo oluphambili, izibali-xesha zenjongo ezilishumi (ekuthi kuzo ezisixhenxe zikhuselwe), izibali-xesha ezimbini ezisisiseko, izibali-xesha zamandla aphantsi amahlanu, izinja ezimbini zokulinda, kunye nezibali-xesha ezine zenkqubo kwiCortex-A7 nganye.
Zonke izixhobo zokubala zesibali-xesha zinokumiswa kwimowudi yolungiso.
Itheyibhile engezantsi ithelekisa iimpawu zolawulo oluphambili, injongo-jikelele, izibali-xesha ezisisiseko kunye nezisezantsi.

Uhlobo lwesibali-xesha

Isibali-xesha

Uluhlu 4. Uthelekiso lwesici sesibali-xesha

Isisombululo esichasayo-
tion

Uhlobo lwekhawuntara

Prescaler factor

Ukwenziwa kwesicelo se-DMA

Thatha/ thelekisa amajelo

Imveliso ehambelanayo

Ujongano olukhulu
iwotshi (MHz)

Max
isibali-xesha
iwotshi (MHz)(1)

Advanced TIM1, -lawula TIM8

16-bit

Phezulu, Nayiphi na inani elipheleleyo ezantsi, phakathi ko-1 phezulu/ezantsi kunye no-65536

Ewe

TIM2 TIM5

32-bit

Phezulu, Nayiphi na inani elipheleleyo ezantsi, phakathi ko-1 phezulu/ezantsi kunye no-65536

Ewe

TIM3 TIM4

16-bit

Phezulu, Nayiphi na inani elipheleleyo ezantsi, phakathi ko-1 phezulu/ezantsi kunye no-65536

Ewe

Nayiphi na inombolo

TIM12(2) 16-bit

phezulu phakathi kwe-1

Hayi

Ngokubanzi

kunye nama-65536

injongo

TIM13(2) TIM14(2)

16-bit

Nayiphi na inani Phakathi ko-1
kunye nama-65536

Hayi

Nayiphi na inombolo

TIM15(2) 16-bit

phezulu phakathi kwe-1

Ewe

kunye nama-65536

TIM16(2) TIM17(2)

16-bit

Nayiphi na inani Phakathi ko-1
kunye nama-65536

Ewe

Isiseko

TIM6, TIM7

16-bit

Nayiphi na inani Phakathi ko-1
kunye nama-65536

Ewe

I-LPTIM1,

Amandla aphantsi

I-LPTIM2(2), LPTIM3(2),
I-LPTIM4,

16-bit

1, 2, 4, 8, Up 16, 32, 64,
128

Hayi

I-LPTIM5

104.5

209

Hayi

104.5

209

Hayi

104.5

209

Hayi

104.5

209

Hayi

104.5

209

104.5

209

104.5

209

Hayi

104.5

209

1(3)

Hayi

104.5 104.5

1. Elona xesha liphezulu lewotshi lifikelela kwi-209 MHz ngokuxhomekeke kwi-TIMGxPRE bit kwi-RCC. 2. Isibali-xesha esikhuselekileyo. 3. Akukho tshaneli yokuthatha kwiLPTIM.

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3.26.1 3.26.2 3.26.3

Izibali-xesha ezikwinqanaba eliphezulu (TIM1, TIM8)
Izibali zolawulo oluphambili (TIM1, TIM8) zinokubonwa njengezigaba ezithathu zeejeneretha ze-PWM eziphindaphindwe kwiitshaneli ezi-6. Zineziphumo ezihambelanayo zePWM ezinamaxesha afileyo anokucwangciswa. Zisenokuqwalaselwa njengezibali-xesha ezipheleleyo zenjongo jikelele. Iitshaneli zabo ezine ezizimeleyo zingasetyenziselwa: · ukubamba igalelo · uthelekiso lwemveliso · ukuveliswa kwe-PWM (i-edge- okanye iindlela ezilungelelaniswe neziko) · i-one-pulse mode output
Ukuba iqwalaselwe njengesibali-xesha esiqhelekileyo se-16-bit, baneempawu ezifanayo njengesibali-xesha senjongo jikelele. Ukuba iqwalaselwe njenge-16-bit yejenereyitha ye-PWM, inamandla okuguqula ngokupheleleyo (0-100%).
Isibali-xesha solawulo oluphambili sinokusebenza kunye nezibali-xesha zenjongo ngokubanzi kusetyenziswa ikhonkco lesibali-xesha songqamaniso okanye ikhonkco lomnyhadala.
I-TIM1 kunye ne-TIM8 zixhasa ukuveliswa kwesicelo esizimeleyo se-DMA.
Izibali-xesha zenjongo ngokubanzi (TIM2, TIM3, TIM4, TIM5, TIM12, TIM13, TIM14, TIM15, TIM16, TIM17)
Kukho izibambi-xesha ezilungelelanisiweyo ezilishumi ezizinziswe kwizixhobo ze-STM32MP133C/F (jonga iTheyibhile 4 ukuze ufumane umahluko). · TIM2, TIM3, TIM4, TIM5
I-TIM 2 kunye ne-TIM5 zisekelwe kwi-32-bit-auto-reload up/down counter kunye ne-16-bit prescaler, ngelixa i-TIM3 kunye ne-TIM4 zisekelwe kwi-16-bit-auto-reload up/downcounter kunye ne-16-bit prescaler. Zonke izibali zibonakalisa iziteshi ezine ezizimeleyo zokubamba igalelo / uthelekiso lwemveliso, i-PWM okanye i-one-pulse mode output. Oku kunika ukuya kuthi ga kwi-16 igalelo lokubanjwa/ukuthelekisa imveliso/iiPWM kwiipakethe ezinkulu. Ezi zibali-xesha zenjongo ngokubanzi zinokusebenza kunye, okanye nezinye izibali-xesha zenjongo ngokubanzi kunye nezibali-xesha zolawulo oluphambili iTIM1 kunye ne-TIM8, kusetyenziswa ikhonkco lesibali-xesha songqamaniso okanye ikhonkco lomsitho. Nasiphi na kwezi zibali-xesha zenjongo ngokubanzi zinokusetyenziselwa ukuvelisa iziphumo zePWM. I-TIM2, TIM3, TIM4, TIM5 zonke zinesicelo esizimeleyo sokwenziwa kwesicelo se-DMA. Bayakwazi ukuphatha i-quadrature (eyongeziweyo) imiqondiso ye-encoder kunye neziphumo zedijithali ukusuka kwisinye ukuya kwezine zoluvo lwesiphumo seholo. · TIM12, TIM13, TIM14, TIM15, TIM16, TIM17 Ezi zibali-xesha zisekelwe kwi-16-bit-auto-reload upcounter kunye ne-16-bit prescaler. I-TIM13, i-TIM14, i-TIM16 kunye ne-TIM17 ibonisa itshaneli enye ezimeleyo, ngelixa i-TIM12 kunye ne-TIM15 zineendlela ezimbini ezizimeleyo zokufaka igalelo / ukuthelekisa imveliso, i-PWM okanye i-mode ye-pulse enye. Zinokudityaniswa ne-TIM2, TIM3, TIM4, TIM5 egcwele-injongo egcweleyo yesibali-xesha okanye isetyenziswe njengeziseko zexesha ezilula. Ngasinye kwezi zibali-xesha sinokuchazwa (kwi-ETZPC) njengefikelelekayo ngesoftware ekhuselekileyo kuphela.
Izibali-xesha ezisisiseko (TIM6 kunye neTIM7)
Ezi zibali-xesha zisetyenziswa ikakhulu njengesiseko sexesha le-16-bit.
I-TIM6 kunye ne-TIM7 zixhasa ukuveliswa kwesicelo esizimeleyo se-DMA.

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3.26.4
3.26.5 3.26.6

Izibali zamandla aphantsi (LPTIM1, LPTIM2, LPTIM3, LPTIM4, LPTIM5)
Isibali-xesha samandla aphantsi ngasinye sinewotshi ezimeleyo kwaye sisebenza nakwimowudi yokuMisa ukuba sivalwe yi-LSE, LSI okanye yiwotshi yangaphandle. I-LPTIMx iyakwazi ukuvusa isixhobo kwimowudi yokuMisa.
Ezi zibali-xesha zamandla asezantsi zixhasa ezi mpawu zilandelayo: · I-16-bit up counter ene-16-bit autoreload irejista · irejista yokuthelekisa ibhithi eli-16 · Imveliso elungiselelwayo: i-pulse, PWM · Imo eqhubekayo/yokudubula enye · Isoftware ekhethiweyo/isixhobo sokufaka isixhobo sokuxhobisa · Umthombo okhethiweyo wewotshi:
umthombo wewotshi yangaphakathi: LSE, LSI, HSI okanye APB iwotshi yomthombo womthombo wewotshi yangaphandle ngaphezulu kwegalelo leLPTIM (isebenza nokuba akukho wotshi yangaphakathi
Umthombo osebenzayo, osetyenziswa sisibali se-pulse counter
I-LPTIM2 kunye ne-LPTIM3 zinokuchazwa (kwi-ETZPC) njengefumaneka ngesoftware ekhuselekileyo kuphela.
Abalindi abazimeleyo (IWDG1, IWDG2)
Umlindi ozimeleyo usekwe kwikhawuntara ye-12-bit kunye ne-8-bit prescaler. Ivalwe kwi-RC ezimeleyo ye-32 kHz yangaphakathi (LSI) kwaye, njengoko isebenza ngokuzimeleyo ukusuka kwiwashi ephambili, inokusebenza kwiimo ze-Stop and Standby. I-IWDG ingasetyenziswa njengedog yokugada ukuseta kwakhona isixhobo xa kukho ingxaki. Yihardware- okanye isoftware eqwalaselweyo ngokhetho lwebhayithi.
I-IWDG1 inokuchazwa (kwi-ETZPC) njengefikelelekayo ngesoftware ekhuselekileyo kuphela.
Izibali-xesha zeGeneric (Cortex-A7 CNT)
Izibali-xesha zeCortex-A7 ezizinziswe ngaphakathi kweCortex-A7 zondliwa lixabiso elisuka kwisizukulwana sexesha lenkqubo (STGEN).
ICortex-A7 iprosesa ibonelela ngezi xeli-xesha zilandelayo: · isibali-xesha esibonakalayo ukuze sisetyenziswe kwiindlela ezikhuselekileyo nezingakhuselekanga.
Iirejista zexesha elibonakalayo zigcinwa ebhankini ukunika iikopi ezikhuselekileyo nezingakhuselekanga. · Isibali-xesha esibonakalayo sokusetyenziswa kwiindlela ezingakhuselekanga · isibali-xesha esibonakalayo sokusetyenziswa kwimowudi ye-hypervisor
Izibali-xesha zeGeneric ayizizo iiperipherals ezibhalwe kwimemori kwaye ke zifikeleleka kuphela ngemiyalelo ethile yeCortex-A7 coprocessor (cp15).

3.27

Ukuveliswa kwexesha lenkqubo (STGEN)
Isizukulwana sexesha lenkqubo (STGEN) sivelisa ixabiso lokubala ixesha elibonelela ngokuhambelana view ixesha lazo zonke izibali-xesha zeCortex-A7.

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Isizukulwana sexesha lenkqubo sinezi mpawu ziphambili zilandelayo: · I-64-bit ububanzi ukunqanda imiba yokuqengqeleka · Qala ukusuka ku-zero okanye ixabiso elicwangcisiweyo · Lawula ujongano lwe-APB (STGENC) eyenza ukuba isibali-xesha sigcinwe kwaye sibuyiselwe.
kuyo yonke imisitho yokwehla kwamandla · Funda-kuphela ujongano lwe-APB (STGENR) eyenza ukuba ixabiso lesibali-xesha lifundwe ngabantu abanga-
isoftware ekhuselekileyo kunye nezixhobo zolungiso
I-STGENC inokuchazwa (kwi-ETZPC) njengefumaneka ngesoftware ekhuselekileyo kuphela.

3.28

Iwotshi yexesha langempela (RTC)
I-RTC ibonelela ngokuvuka ngokuzenzekelayo ukulawula zonke iindlela zamandla aphantsi.I-RTC iyisibali-xesha esizimeleyo se-BCD / ikhawuntara kwaye ibonelela ngewashi / ikhalenda yexesha kunye nokuphazamiseka kwe-alamu okucwangcisiweyo.
I-RTC ibandakanya iflegi yokuvuka ecwangcisiweyo ngamaxesha athile ekwaziyo ukuphazamiseka.
Iirejista ezimbini ze-32-bit ziqulathe imizuzwana, imizuzu, iiyure (i-12- okanye ifomati yeeyure ezingama-24), usuku (usuku lweveki), umhla (usuku lwenyanga), inyanga, kunye nonyaka, ezichazwe kwifomati yokubini enekhowudi yesishumi (BCD). Ixabiso lemizuzwana engaphantsi likwafumaneka kwifomati yokubini.
Imo yokubini ixhaswa ukwenza lula ulawulo lomqhubi wesoftware.
Imbuyekezo ye-28-, i-29- (unyaka we-leap), i-30-, kunye ne-31 yeentsuku zeenyanga zenziwa ngokuzenzekelayo. Imbuyekezo yexesha lokonga emini nayo inokwenziwa.
Iirejista ezongezelelweyo ze-32-bit ziqulathe i-alamu enokucwangciswa imizuzwana, imizuzwana, imizuzu, iiyure, usuku kunye nomhla.
Uphawu lokulinganisa idijithali luyafumaneka ukuze kuhlawulwe nakuphi na ukutenxa kwi-crystal oscillator ukuchaneka.
Emva kokusetwa ngokutsha kwesizinda se-Backup, zonke iirejista ze-RTC zikhuselwe ekufikeleleni ekubhaleni okunokwenzeka kwe-parasitic kwaye zikhuselwe ngofikelelo olukhuselekileyo.
Logama nje unikezelo voltage ihlala kuluhlu lokusebenza, i-RTC ayiyeki, kungakhathaliseki isimo sesixhobo (Imodi yokuqhuba, imodi yamandla aphantsi okanye phantsi kokusetha kwakhona).
Ezona mpawu ziphambili zeRTC zezi zilandelayo: · Ikhalenda enemizuzwana engaphantsi, imizuzwana, imizuzu, iiyure (12 okanye 24 ifomathi), usuku (usuku
iveki), umhla (usuku lwenyanga), inyanga, nonyaka · Imbuyekezo yogcino lwemini enokucwangciswa ngesoftware · Isivusi esinocwangciso esinokuphazamiseka komsebenzi. I-alamu inokuvuswa yiyo nayiphi na
indibaniselwano yemihlaba yekhalenda. · Iyunithi yokuvuka ezenzekelayo eyenza iflegi yamaxesha athile evusa ukuvuka okuzenzekelayo
ukuphazamiseka · Ubhaqo lwewotshi yereferensi: eyona wotshi yemvelaphi echane ngakumbi (50 okanye 60 Hz) ingaba
isetyenziselwa ukuphucula ukuchaneka kwekhalenda. · Ungqamaniso oluchanekileyo kunye newotshi yangaphandle usebenzisa i-shift ye-sub-second feature · Digital calibration circuit (periodic counter correction): 0.95 ppm ukuchaneka, efunyenwe
iwindow yokulinganisa imizuzwana emininzi

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· Amaxeshaamp umsebenzi wogcino lomnyhadala · Ukugcinwa kwe-SWKEY kwiirejista zogcino lwe-RTC kunye nofikelelo oluthe ngqo lwebhasi kwi-SAE (hayi
efundekayo yi-CPU) · Ukuphazamiseka/iziganeko eziMasable:
IAlam A IAlam B Ukuvuka kuphazamisa iTimestamp · Inkxaso ye-TrustZone: I-RTC ikhuseleke ngokupheleleyo i-Alarm A, i-alam B, isibali-xesha sokuvuka kunye namaxeshaamp umntu okhuselekile okanye ongakhuselekanga
uqwalaselo RTC ulungelelwaniso lwenziwe ngokukhuselekileyo kuqwalaselo olungakhuselekanga

3.29

Tampiirejista kunye neerejista (TAMP)
Iirejista ezingama-32 x 32-bit zigcinwa kuzo zonke iindlela zamandla aphantsi kwaye nakwimo ye-VBAT. Zingasetyenziselwa ukugcina idatha enovakalelo njengoko umxholo wabo ukhuselwe kwiampisekethe yokufumanisa.
Zisixhenxe tamper izikhonkwane zokufaka kunye nezihlanu tampIzikhonkwane zemveliso ziyafumaneka kwi-anti-tampukufunyanwa. I-t yangaphandleampIzikhonkwane ze-er zingaqwalaselwa ukubonwa komphetho, udini kunye nenqanaba, ukubonwa kwinqanaba ngokucoca, okanye i-t esebenzayo.amper oko kwandisa inqanaba lokhuseleko ngokujonga ngokuzenzekelayo ukuba i-tampizikhonkwane azivulwanga ngaphandle okanye zifutshane.
TAMP iimpawu eziphambili · iirejista ezingama-32 ezigcinayo (TAMP_BKPxR) iphunyezwe kwindawo yeRTC eshiyekileyo
inikwe amandla yi-VBAT xa amandla e-VDD ecinyiwe · 12 tampizikhonkwane ezifumanekayo (amagalelo asixhenxe kunye neziphumo ezihlanu) · Nayiphi na i-tampukufunyanwa kwe-er kunokuvelisa amaxesha e-RTCamp isiganeko. · Nayiphi na i-tampubhaqo er lucima iirejista zogcino. · Inkxaso yeTrustZone:
TampUlungelelwaniso olukhuselekileyo okanye olungakhuselekanga Ugcino lweerejista kuqwalaselo kwiindawo ezintathu ezinobungakanani obucwangcisekileyo:
. enye funda/bhala indawo ekhuselekileyo . omnye ubhale indawo ekhuselekileyo/efundekayo engakhuselekanga. enye funda/bhala indawo engakhuselekanga · Ikhawuntara yeMonotonic

3.30

I-inter-integrated circuit interfaces (I2C1, I2C2, I2C3, I2C4, I2C5)
Izixhobo zifakela ujongano lwe-I2C ezintlanu.
I-interface yebhasi ye-I2C iphatha unxibelelwano phakathi kwe-STM32MP133C/F kunye ne-serial yebhasi ye-I2C. Ilawula yonke i-I2C yolandelelwano lwebhasi ethile, iprotocol, ulamlo kunye nexesha.

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I-peripheral ye-I2C ixhasa: · I-I2C-bus specication kunye ne-user manual rev. 5 ukuhambelana:
Iimowudi zekhoboka kunye nenkosi, i-multimaster ikhono leMowudi ye-Standard (Sm), ene-bitrate ukuya kwi-100 kbit / s Fast-mode (Fm), kunye ne-bitrate ukuya kwi-400 kbit / s Fast-mode Plus (Fm +), kunye ne-bitrate ukuya kwi-1 Mbit / s kunye ne-20 mA yemveliso ye-drive I / Os 7-bit idilesi ye-10-bit idilesi ye-7-bit kunye ne-addressing ye-2.0 kwaye ubambe amaxesha Ukhetho lokunweba iwotshi · Ulawulo lwebhasi yenkqubo (SMBus) ukucaciswa kwe-rev XNUMX ukuhambelana: I-Hardware PEC (ukukhangela impazamo yepakethe) ukuveliswa kunye nokuqinisekiswa nge-ACK
lawula Idilesi yokusombulula iprotocol (ARP) inkxaso SMBus isilumkiso · Iprotocol yolawulo lwenkqubo yamandla (PMBusTM) ukucaciswa kwe-rev 1.1 ukuhambelana · Iwashi elizimeleyo: ukhetho lwemithombo yewotshi ezimeleyo evumela isantya sonxibelelwano se-I2C ukuba sizimele kwi-PCLK reprogramming · Ukuvuka kwimodi ye-Stop kumdlalo wedilesi · I-analog ecwangcisiweyo kunye ne-digital noise filters
I-I2C3, i-I2C4 kunye ne-I2C5 inokuchazwa (kwi-ETZPC) njengefumaneka nge-software ekhuselekileyo kuphela.

3.31

I-Universal synchronous i-asynchronous receiver transmitter (USART1, UART2, USART3, UART6 kunye ne-UART4, UART5, UART7, UART8)
Izixhobo zinee-transmitters ezine ezifakwe kwi-universal synchronous receiver (USART1, USART2, USART3 kunye ne-USART6) kunye ne-asynchronous receiver transmitters ezine (UART4, UART5, UART7 kunye ne-UART8). Jonga kwitheyibhile engezantsi malunga nesishwankathelo se-USARTx kunye ne-UARTx.
Olu nxibelelwano lubonelela ngonxibelelwano olungavumelaniyo, inkxaso ye-IrDA SIR ENDEC, imowudi yonxibelelwano lwe-multiprocessor, imowudi yonxibelelwano ye-single-half-duplex kunye ne-LIN master / isakhono sekhoboka. Banikezela ngolawulo lwe-hardware ye-CTS kunye neempawu ze-RTS, kunye ne-RS485 Driver Vulela. Bayakwazi ukunxibelelana ngesantya ukuya kuthi ga kwi-13 Mbit/s.
I-USART1, i-USART2, i-USART3 kunye ne-USART6 zikwabonelela ngemowudi ye-Smartcard (i-ISO 7816 iyahambelana) kunye nokukwazi ukunxibelelana okufana ne-SPI.
Yonke i-USART inesizinda sewotshi esizimeleyo kwiwotshi ye-CPU, evumela i-USARTx ukuba ivuse i-STM32MP133C/F ukusuka kwimodi ye-Stop usebenzisa i-baudrates ukuya kwi-200 Kbaud.Iziganeko zokuvuka kwi-Stop mode zicwangciswa kwaye zinokuthi:
· qala ukubhaqwa kancinci
· nasiphi na isakhelo sedatha efunyenweyo
· isakhelo sedatha ecwangcisiweyo

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Zonke ii-interface ze-USART zinokunikezelwa ngumlawuli we-DMA.

Uluhlu 5. Iimpawu ze-UART/UART

UART iindlela/iinkalo(1)

UART1/2/3/6

UART4/5/7/8

Ulawulo lokuhamba kwehardware yemodem

Unxibelelwano oluqhubekayo usebenzisa i-DMA

Unxibelelwano oluninzi

Imowudi ye-SPI ehambelanayo (inkosi/ikhoboka)

–

Imowudi ye-Smartcard

–

Unxibelelwano lwe-single-half-duplex block IrDA SIR ENDEC

Imo ye-LIN

Idomeyini yeewotshi ezimbini kunye nokuvuka kwimowudi yamandla aphantsi

Ukuphela kwexesha lomamkeli uphazamise unxibelelwano lweModbus

Ukubhaqwa kwenqanaba le-baud ezenzekelayo

Umqhubi uvule

UART ubude bedatha

7, 8 kunye ne-9 bits

1. X = ixhaswa.

I-USART1 kunye ne-USART2 zinokuchazwa (kwi-ETZPC) njengefumaneka ngesoftware ekhuselekileyo kuphela.

3.32

Ujongano lothotho lwe peripheral (SPI1, SPI2, SPI3, SPI4, SPI5) inter- ezidityanisiweyo zojongano lwesandi (I2S1, I2S2, I2S3, I2S4)
Izixhobo zifaka ii-SPI ezintlanu (SPI2S1, SPI2S2, SPI2S3, SPI2S4, kunye ne-SPI5) ezivumela unxibelelwano ukuya kuthi ga kwi-50 Mbit / s kwiimowudi zenkosi kunye nekhoboka, kwiindlela ze-half-duplex, fullduplex kunye ne-simplex. I-3-bit prescaler inika iifrikhwensi zemowudi yenkosi ezisibhozo kwaye isakhelo siqwalaselwe ukusuka kwi-4 ukuya kwi-16 bits. Zonke i-SPI interfaces zixhasa imo ye-NSS ye-pulse, imo ye-TI, i-hardware ye-CRC yokubala kunye nokuphindaphinda kwe-8-bit efakwe kwi-Rx kunye ne-Tx FIFOs kunye nekhono le-DMA.
I-I2S1, i-I2S2, i-I2S3, kunye ne-I2S4 ziphindaphindwe nge-SPI1, i-SPI2, i-SPI3 kunye ne-SPI4. Ziyakwazi ukusebenza kwimowudi yenkosi okanye yekhoboka, kwiindlela zonxibelelwano ezigcweleyo kunye nesiqingatha se-duplex, kwaye zinokucwangciswa ukuba zisebenze ngesisombululo se-16 okanye i-32-bit njengegalelo okanye ishaneli yokuphuma. Umsindo sampIifrikhwensi ze-ling ukusuka kwi-8 kHz ukuya kwi-192 kHz ziyaxhaswa. Zonke ii-interfaces ze-I2S zixhasa ukuphindaphindwa kwe-8-bit ehlonyelwe i-Rx kunye ne-Tx FIFOs enekhono le-DMA.
I-SPI4 kunye ne-SPI5 inokuchazwa (kwi-ETZPC) njengefumaneka nge-software ekhuselekileyo kuphela.

3.33

Uthotho lojongano lweaudio (SAI1, SAI2)
Izixhobo zifakela ii-SAI ezimbini ezivumela ukuyilwa kweeprothokholi ezininzi zestereo okanye zemono

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ezifana ne-I2S, LSB okanye i-MSB-justified, PCM/DSP, TDM okanye AC'97. Isiphumo se-SPDIF sifumaneka xa ibhloko yomsindo iqwalaselwe njenge-transmitter. Ukuzisa eli nqanaba lokuguquguquka kunye nokuhlengahlengiswa, i-SAI nganye iqulethe iibhloko ezimbini ezizimeleyo zomsindo. Ibhloko nganye inejenereyitha yayo yewotshi kunye nomlawuli womgca we-I/O. Umsindo sampIifrikhwensi zokufika kwi-192 kHz ziyaxhaswa. Ukongeza, ukuya kuthi ga kwii-microphone ezisibhozo zinokuxhaswa ngokubulela kwi-interface yePDM edibeneyo. I-SAI inokusebenza kwi-master okanye kubumbeko lwekhoboka. Iibhloko ezisezantsi zomsindo zinokuba ngummkeli okanye umthumeli kwaye zinokusebenza ngokuhambelanayo okanye ngokulinganayo (ngokubhekisele kwenye). I-SAI inokudityaniswa nezinye ii-SAIs ukuze isebenze ngaxeshanye.

3.34

Ujongano lommkeli we-SPDIF (SPDIFRX)
I-SPDIFRX yenzelwe ukufumana ukuhamba kwe-S / PDIF ehambelana ne-IEC-60958 kunye ne-IEC-61937. Le migangatho ixhasa imijelo ye-stereo elula ukuya kuthi ga kwi-s ephezuluample rate, kunye nesandi esijikelezileyo samajelo amaninzi, njengalawo achazwe yiDolby okanye iDTS (ukuya kuthi ga kwi-5.1).
Iimpawu eziphambili zeSPDIFRX zezi zilandelayo: · Ukuya kuthi ga kwizixhobo ezine ezifumanekayo · Ukufunyanwa kwereyithi yesimboli ngokuzenzekelayo · Umlinganiselo ophezulu wesimboli: 12.288 MHz · Umlambo we-Stereo ukusuka kwi-32 ukuya kwi-192 kHz exhaswayo · Inkxaso yomsindo we-IEC-60958 kunye ne-IEC-61937, izicelo zabathengi · Ulawulo lwe-Parity bit · Unxibelelwano usebenzisa i-DMA yomsindoampngaphantsi · Unxibelelwano kusetyenziswa i-DMA kulawulo nolwazi lwejelo lomsebenzisi · Ukuphazamisa amandla
Ummkeli we-SPDIFRX unikezela zonke iimpawu eziyimfuneko zokubona ireyithi yesimboli, kunye ne-decode stream data engenayo. Umsebenzisi unokukhetha igalelo elifunwayo le-SPDIF, kwaye xa isignali esebenzayo ikhona, i-SPDIFRX iphinda i-sampikhupha isignali engenayo, icoca umjelo waseManchester, kwaye ibone iifreyimu, iifreyimu ezisezantsi kunye neziqalelo zeebhloko. I-SPDIFRX inikezela kwi-CPU yedatha ye-decoded, kunye neeflegi zesimo esihambelanayo.
I-SPDIFRX ikwabonelela ngomqondiso ogama lingu spdif_frame_sync, oguqulela kumyinge wesakhelo esisezantsi se-S/PDIF esisetyenziselwa ukubala ngokuthe ngqoampireyithi ye-algorithms yewotshi yokukhukuliseka.

3.35

Khusela igalelo/imveliso yedijithali ujongano lweMultiMediaCard (SDMMC1, SDMMC2)
Igalelo ezimbini ezikhuselekileyo zedijithali / imveliso ye-MultiMediaCard interfaces (i-SDMMC) ibonelela ngokujongana phakathi kwebhasi ye-AHB kunye namakhadi ememori e-SD, amakhadi e-SDIO kunye nezixhobo ze-MMC.
Iimpawu ze-SDMMC ziquka oku kulandelayo: · Ukuthobela i-Embedded MultiMediaCard System Specification Version 5.1
Inkxaso yekhadi kwiindlela ezintathu ezahlukeneyo zedatabhasi: i-1-bit (ehlala ikho), i-4-bit kunye ne-8-bit

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(Isantya se-HS200 SDMMC_CK silinganiselwe kwisantya esiphezulu esivumelekileyo se-I/O)(HS400 ayixhaswanga)
· Ukuhambelana ngokupheleleyo neenguqulelo zangaphambili zeMultiMediaCards (ukuhambelana ngasemva)
· Ukuthobela ngokupheleleyo i-SD memory card specs specitions version 4.1 (SDR104 SDMMC_CK isantya esilinganiselweyo kwisantya esiphezulu esivumelekileyo se-I/O, imo ye-SPI kunye nemowudi ye-UHS-II ayixhaswanga)
· Ukuthotyelwa ngokupheleleyo kunye ne-SDIO yenkcazo yekhadi le-4.0 Inkxaso yekhadi kwiindlela ezimbini ezahlukeneyo ze-databus: i-1-bit (engagqibekanga) kunye ne-4-bit (SDR104 SDMMC_CK isantya esinqunyelwe kwisantya esiphezulu esivunyelweyo se-I / O, imodi ye-SPI kunye nemodi ye-UHS-II ayixhaswanga)
· Ukudluliselwa kwedatha ukuya kuthi ga kwi-208 Mbyte/s kwimowudi ye-8-bit (kuxhomekeke kwisantya esiphezulu esivumelekileyo se-I/O)
· Idatha kunye nemveliso yomyalelo yenza ukuba imiqondiso ilawule abaqhubi beendlela zangaphandle
· Umlawuli we-DMA ozinikeleyo ofakwe kwi-SDMMC host interface, evumela ukuhanjiswa kwesantya esiphezulu phakathi kojongano kunye ne-SRAM.
· Inkxaso yoluhlu olunxibelelene ne-IDMA
· Ukunikezelwa kwamandla anikezelweyo, i-VDDSD1 kunye ne-VDDSD2 ye-SDMMC1 kunye ne-SDMMC2 ngokulandelelana, ukususa imfuno yokufakwa kwinqanaba-shifter kwi-interface yekhadi le-SD kwimodi ye-UHS-I.
Kuphela zii-GPIO ezithile ze-SDMMC1 kunye ne-SDMMC2 ezifumaneka kwi-VDDSD1 ezinikeleyo okanye i-VDDSD2 yephini yonikezelo. Ezo ziyinxalenye ye-GPIOs yokuqalisa engagqibekanga ye-SDMMC1 kunye ne-SDMMC2 (SDMMC1: PC[12:8], PD[2], SDMMC2: PB[15,14,4,3], PE3, PG6). Ziyakwazi ukuchongwa kwelinye itheyibhile yomsebenzi ngemiqondiso ene-"_VSD1" okanye "_VSD2" isimamva.
I-SDMMC nganye idityaniswe nebhloko yokulibaziseka (i-DLYBSD) evumela ukuxhaswa kwe-data yangaphandle rhoqo ngaphezu kwe-100 MHz.
Zombini ujongano lweSDMMC lunezibuko loqwalaselo olukhuselekileyo.

3.36

Uthungelwano lwendawo yomlawuli (FDCAN1, FDCAN2)
Inethiwekhi yendawo yomlawuli (CAN) i-subsystem iquka iimodyuli ezimbini ze-CAN, imemori yomyalezo ekwabelwana ngayo i-RAM kunye neyunithi yokulinganisa iwashi.
Zombini iimodyuli ze-CAN (i-FDCAN1 kunye ne-FDCAN2) zihambelana ne-ISO 11898-1 (i-CAN ye-protocol specication version 2.0 inxalenye A, B) kunye ne-CAN FD ye-protocol specication version 1.0.
Umyalezo we-10-Kbyte inkumbulo ye-RAM iphumeza izihluzi, ifumana iiFIFO, ifumana ii-buffers, idlulise i-FIFOs yesiganeko kwaye idlulise izithinteli (kunye nezibangela ze-TTCAN). Lo myalezo RAM kwabelwana ngawo phakathi kweemodyuli ezimbini ze-FDCAN1 kunye ne-FDCAN2.
Iyunithi yokulinganisa iwotshi eqhelekileyo ayikhethi. Ingasetyenziselwa ukuvelisa iwashi elilinganisiweyo zombini i-FDCAN1 kunye ne-FDCAN2 ukusuka kwi-oscillator ye-RC yangaphakathi ye-HSI kunye ne-PLL, ngokuvavanya imiyalezo ye-CAN efunyenwe yi-FDCAN1.

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3.37

Umamkeli webhasi ebaleka ngesantya esiphezulu (USBH)
Izixhobo zifakela enye i-USB ye-high-speed host (ukuya kwi-480 Mbit / s) kunye namazibuko amabini omzimba. I-USBH ixhasa zombini eziphantsi, isantya esipheleleyo (OHCI) kunye nesantya esiphezulu (EHCI) imisebenzi ngokuzimeleyo kwizibuko ngalinye. Idibanisa ii-transceivers ezimbini ezingasetyenziselwa nokuba yi-low-speed (1.2 Mbit / s), i-full-speed (12 Mbit / s) okanye i-high-speed operation (480 Mbit / s). I-transceiver yesibini yesantya esiphezulu yabelwana ngayo kunye ne-OTG ephezulu.
I-USBH ihambelana neenkcukacha ze-USB 2.0. Abalawuli be-USBH bafuna iiwotshi ezinikezelweyo ezenziwe yi-PLL ngaphakathi kwe-USB ephezulu ye-PHY.

3.38

I-USB ekuhambeni-isantya esiphezulu (OTG)
Izixhobo zifakela enye i-USB OTG high-speed (ukuya kwi-480 Mbit/s) isixhobo/inginginya/iperipheral yeOTG. I-OTG ixhasa zombini-isantya esipheleleyo kunye nokusebenza okuphezulu. I-transceiver ye-high-speed operation (480 Mbit / s) yabelwana nge-USB Host yesibini port.
I-USB OTG HS ihambelana neenkcukacha ze-USB 2.0 kunye neenkcukacha ze-OTG 2.0. Ine-software-elungiselelwa isiphelo sesiphelo kwaye ixhasa ukunqumamisa/ukuqalisa kwakhona. Abalawuli be-USB OTG bafuna iwotshi ezinikeleyo ye-48 MHz eveliswa yi-PLL ngaphakathi kwe-RCC okanye ngaphakathi kwe-USB enesantya esiphezulu se-PHY.
Iimpawu eziphambili ze-USB OTG HS zidweliswe ngezantsi: · I-Rx edibeneyo kunye ne-Tx ye-FIFO ubukhulu be-4 Kbyte kunye nobukhulu be-FIFO ubukhulu · SRP (i-protocol yesicelo seseshoni) kunye ne-HNP (iprotocol yothethathethwano lokusingatha) inkxaso · I-endpoints ezisibhozo ze-bidirectional · I-16 iziteshi zokusingatha kunye ne-periodic OUT inkxaso · I-Software configurable1.3 modes ye-OTG2.0. I-LPM (ikhonkco lolawulo lwamandla) inkxaso · Uhlaziyo lwenkcazo yokutshaja ibhetri 2.0 inkxaso · Inkxaso ye-HS OTG PHY · I-USB yangaphakathi DMA · HNP/SNP/IP ngaphakathi (akukho mfuneko yaso nasiphi na isichasi sangaphandle) · Kwiimowudi ze-OTG/Inginginya, umbane wombane uyafuneka kwimeko yezixhobo eziqhutywa ngebhasi.
iqhagamshelwe.
I-USB OTG uqwalaselo port inokukhuseleka.

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3.39

Ujongano lwe-Gigabit Ethernet MAC (ETH1, ETH2)
Izixhobo zibonelela nge-IEEE-802.3-2002-ehambelanayo ne-gigabit media access controllers (GMAC) yonxibelelwano lwe-Ethernet LAN ngokusebenzisa i-interface ye-industry-standard medium-independent interface (MII), i-interface encitshisiweyo ezimeleyo (RMII), okanye i-interface encitshisiweyo ye-gigabit medium-independent (RGMII).
Izixhobo zifuna idivaysi ye-interface yangaphandle (PHY) ukuxhuma kwibhasi ye-LAN yenyama (i-twisted-pair, fiber, njl.). I-PHY iqhagamshelwe kwizibuko lesixhobo isebenzisa imiqondiso eyi-17 ye-MII, imiqondiso eyi-7 ye-RMII, okanye imiqondiso eyi-13 ye-RGMII, kwaye inokuvalwa kusetyenziswa i-25 MHz (MII, RMII, RGMII) okanye 125 MHz (RGMII) ukusuka kwi-STM32MP133C/F okanye ukusuka kwi-PHY.
Izixhobo ziquka ezi mpawu zilandelayo: · Iimowudi zokusebenza kunye nojongano lwe-PHY
I-10-, 100-, kunye ne-1000-Mbit / s amazinga okudluliselwa kwedatha Inkxaso ye-full-duplex kunye ne-half-duplex imisebenzi ye-MII, RMII kunye ne-RGMII PHY ujongano · Ulawulo lokuqhubekekisa Uhluzo lwePakethi ye-Multi-layer: Ukuhluzwa kwe-MAC kumthombo (SA) kunye nendawo (DA)
idilesi egqibeleleyo kunye nesihluzi se-hash, i-VLAN tagUkuhluza okusekwe ngokugqibeleleyo kunye ne-hash, uHlelo lwe-3 lokuhluza kumthombo we-IP (SA) okanye idilesi yendawo ekuyiwa kuyo (DA), i-Layer 4 yokuhluza kumthombo (SP) okanye indawo ekuyiwa kuyo (DP) izibuko ngokuphinda-phindwe kabini kweVLAN: ukufakwa kweVLAN ezimbini. tags kwindlela yokuhambisa, tag ukuhluza kwindlela yokufumana i-IEEE 1588-2008/PTPv2 inkxaso Ixhasa izibalo zenethiwekhi kunye ne-RMON/MIB yokubala (RFC2819/RFC2665) · I-Hardware offload processing Isandulela kunye nokuqaliswa kwedatha yesakhelo (SFD) ukufakwa okanye ukucima Ukunyaniseka kwe-checksum yokukhuphela injini yokulayisha i-header / i-ICU kunye ne-TCPMP yokuhlawula i-injini yokulayishwa kwe-IP kunye nokufakwa kwe-TCPMP fumana i-checksum yokubala kunye nokuthelekisa impendulo yesicelo esizenzekelayo se-ARP kunye nesixhobo idilesi ye-MAC yecandelo le-TCP: ukwahlula okuzenzekelayo kwepakethi ye-TCP yokuhambisa enkulu kwiipakethi ezincinci ezininzi · Imowudi yamandla aphantsi I-Energy eyongayo i-Ethernet (umgangatho we-IEEE 802.3az-2010) Ipakethi yokuvuka ekude kunye nobhaqo lwe-AMD Magic PacketTM
Zombini i-ETH1 kunye ne-ETH2 zinokucwangciswa njengekhuselekile. Xa ukhuselekile, ukuthengiselana kwi-interface ye-AXI kukhuselekile, kwaye iirejista zokucwangcisa zingatshintshwa kuphela ngokufikelela okukhuselekileyo.

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3.40

Debug infrastructure
Izixhobo zibonelela ngolu lungiso lulandelayo kunye nokulandelela iimpawu zokuxhasa uphuhliso lwesoftware kunye nokuhlanganiswa kwenkqubo: · Ukulungiswa kweBreakpoint · Ukwenziwa kwekhowudi yokulandela · Isixhobo sesoftware · JTAG izibuko le-debug · Uthotho-ngocingo debug port · Qalisa igalelo kunye nemveliso · Landela izibuko · IArm CoreSight debug kunye nezinto zomkhondo
Ulungiso lunokulawulwa nge-JTAG/isixhobo sokufikelela kwi-serial-wire debug, kusetyenziswa izixhobo ezisemgangathweni zokucoca.
I-trace port ivumela idatha ukuba ibanjwe ukuloga kunye nohlalutyo.
Ukufikelela kwi-debug kwiindawo ezikhuselekileyo kunikwe amandla ngeempawu zokuqinisekisa kwi-BSEC.

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Umzobo 5. STM32MP133C/F I-LFBGA289 yokuvota

VSS

PA9

PD10

PB7

PE7

PD5

PE8

PG4

PH9

PH13

PC7

PB9

PB14

PG6

PD2

PC9

VSS

PD3

PF5

PD14

PE12

PE1

PE9

PH14

PE10

PF1

PF3

PC6

PB15

PB4

PC10

PC12

DDR_DQ4 DDR_DQ0

PB6

PH12

PE14

PE13

PD8

PD12

PD15

VSS

PG7

PB5

PB3

VDDSD1

PF0

PC11

DDR_DQ1

DDR_ DQS0N

DDR_ DQS0P

PB8

PD6

VSS

PE11

PD1

PE0

PG0

PE15

PB12

PB10

VDDSD2

VSS

PE3

PC8

DDR_ DQM0

DDR_DQ5 DDR_DQ3

PG9

PD11

PA12

PD0

VSS

PA15

PD4

PD9

PF2

PB13

PH10

VDDQ_ DDR

DDR_DQ2 DDR_DQ6 DDR_DQ7 DDR_A5

DDR_RESETN

PG10

PG5

PG8

PH2

PH8

VDDCPU

VDD

VDDCPU VDDCPU

VDD

VDDQ_ DDR

VSS

DDR_A13

VSS

DDR_A9

DDR_A2

PF9

PF6

PF10

PG15

PF8

VDD

VSS

VDDQ_ DDR

DDR_BA2 DDR_A7

DDR_A3

DDR_A0 DDR_BA0

PH11

PI3

PH7

PB2

PE4

VDDCPU

VSS

VDDCORE VDDCORE VDDCORE

VSS

VDDQ_ DDR

DDR_WEN

VSS

DDR_ODT DDR_CSN

DDR_ RASN

PD13

VBAT

PI2

VSS_PLL VDD_PLL VDCPU

VSS

VDDCORE

VSS

VDDCORE

VSS

VDDQ_ DDR

VDDCORE DDR_A10

DDR_CASN

DDR_ CLKP

DDR_ CLKN

PC14OSC32_IN

PC15OSC32_
PHUMA

VSS

PC13

PI1

VDD

VSS

VDDCORE VDDCORE VDDCORE

VSS

VDDQ_ DDR

DDR_A11 DDR_CKE DDR_A1 DDR_A15 DDR_A12

PE2

PF4

PH6

PI0

PG3

VDD

VSS

VDDQ_ DDR

DDR_ATO

DDR_ DTO0

DDR_A8 DDR_BA1 DDR_A14

PF7

PA8

PG11

VDD_ANA VSS_ANA

VDD

VDDQ_ DDR

DDR_ VREF

DDR_A4

VSS

DDR_ DTO1

DDR_A6

PE6

PG1

PD7

VSS

PB11

PF13

VSSA

PA3

NJTRST

VSS_USB VDDA1V1_

REG

VDDQ_ DDR

PWR_LP

DDR_ DQM1

DDR_ DQ10

DDR_DQ8 DDR_ZQ

PH0OSC_IN

PH1OSC_OUT

PA13

PF14

PA2

VREF-

VDDA

PG13

PG14

VDD3V3_ USBHS

VSS

PI5-BOOT1 VSS_PLL2 PWR_ON

DDR_ DQ11

DDR_ DQ13

DDR_DQ9

PG2

PH3

PWR_CPU _ON

PA1

VSS

VREF+

PC5

VSS

VDD

PF15

VDDA1V8_ REG

PI6-BOOT2

VDD_PLL2

PH5

DDR_ DQ12

DDR_ DQS1N

DDR_ DQS1P

PG12

PA11

PC0

PF12

PC3

PF11

PB1

PA6

PE5

PDR_ON USB_DP2

PA14

USB_DP1

BYPASS_ REG1V8

PH4

DDR_ DQ15

DDR_ DQ14

VSS

PA7

PA0

PA5

PA4

PC4

PB0

PC1

PC2

I-NRST

USB_DM2

USB_ RREF

USB_DM1 PI4-BOOT0

PA10

PI7

VSS

MSv65067V5

Lo mfanekiso ungasentla ubonisa umphezulu wepakethe view.

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STM32MP133C/F

Umfanekiso 6. STM32MP133C/F TFBGA289 yokuvota

VSS

PD4

PE9

PG0

PD15

PE15

PB12

PF1

PC7

PC6

PF0

PB14

VDDSD2 VDDSD1 DDR_DQ4 DDR_DQ0

VSS

PE12

PD8

PE0

PD5

PD9

PH14

PF2

VSS

PF3

PB13

PB3

PE3

PC12

VSS

DDR_DQ1

DDR_ DQS0N

DDR_ DQS0P

PE13

PD1

PE1

PE7

VSS

VDD

PE10

PG7

PG4

PB9

PH10

PC11

PC8

DDR_DQ2

DDR_ DQM0

DDR_DQ3 DDR_DQ5

PF5

PA9

PD10

VDDCPU

PB7

VDDCPU

PD12

VDDCPU

PH9

VDD

PB15

VDD

VSS

VDDQ_ DDR

DDR_RESETN

DDR_DQ7 DDR_DQ6

PD0

PE14

VSS

PE11

VDDCPU

VSS

PA15

VSS

PH13

VSS

PB4

VSS

VDDQ_ DDR

VSS

VDDQ_ DDR

VSS

DDR_A13

PH8

PA12

VDD

VDDCPU

VSS

VDDCORE

PD14

PE8

PB5

VDDCORE

PC10

VDDCORE

VSS

VDDQ_ DDR

DDR_A7

DDR_A5

DDR_A9

PD11

PH2

PB6

PB8

PG9

PD3

PH12

PG15

PD6

PB10

PD2

PC9

DDR_A2 DDR_BA2 DDR_A3

DDR_A0 DDR_ODT

PG5

PG10

PF8

VDDCPU

VSS

VDDCORE

PH11

PI3

PF9

PG6

BYPASS_ REG1V8

VDDCORE

VSS

VDDQ_ DDR

DDR_BA0 DDR_CSN DDR_WEN

J VDD_PLL VSS_PLL

PG8

PI2

VBAT

PH6

PF7

PA8

PF12

VDD

VDDA1V8_ REG

PA10

DDR_ VREF

DDR_ RASN

DDR_A10

VSS

DDR_CASN

PE4

PF10

PB2

VDD

VSS

VDDCORE

PA13

PA1

PC4

I-NRST

VSS_PLL2 VDDCORE

VSS

VDDQ_ DDR

DDR_A15

DDR_ CLKP

DDR_ CLKN

PF6

VSS

PH7

VDD_ANA VSS_ANA

PG12

PA0

PF11

PE5

PF15

VDD_PLL2

PH5

DDR_CKE DDR_A12 DDR_A1 DDR_A11 DDR_A14

PC14OSC32_IN

PC15OSC32_
PHUMA

PC13

VDD

VSS

PB11

PA5

PB0

VDDCORE

USB_ RREF

PI6-BOOT2 VDDCORE

VSS

VDDQ_ DDR

DDR_A6

DDR_A8 DDR_BA1

PD13

VSS

PI0

PI1

PA11

VSS

PA4

PB1

VSS

PI5-BOOT1

VSS

VDDQ_ DDR

VSS

VDDQ_ DDR

VSS

DDR_ATO

PH0OSC_IN

PH1OSC_OUT

PF4

PG1

VSS

VDD

PC3

PC5

VDD

PI4-BOOT0

VDD

VSS

VDDQ_ DDR

DDR_A4 DDR_ZQ DDR_DQ8

PG11

PE6

PD7

PWR_ CPU_ON

PA2

PA7

PC1

PA6

PG13

NJTRST

PA14

VSS

PWR_ON

DDR_ DQM1

DDR_ DQ12

DDR_ DQ11

DDR_DQ9

PE2

PH3

PF13

PC0

VSSA

VREF-

PA3

PG14

USB_DP2

VSS

VSS_ USBHS

USB_DP1

PH4

DDR_ DQ13

DDR_ DQ14

DDR_ DQS1P

DDR_ DQS1N

VSS

PG3

PG2

PF14

VDDA

VREF+

PDR_ON

PC2

USB_DM2

VDDA1V1_ REG

VDD3V3_ USBHS

USB_DM1

PI7

Lo mfanekiso ungasentla ubonisa umphezulu wepakethe view.

PWR_LP

DDR_ DQ15

DDR_ DQ10

VSS

MSv67512V3

50/219

I-DS13875 Rev 5

STM32MP133C/F

I-pinout, inkcazo yephini kunye neminye imisebenzi

Umfanekiso 7. STM32MP133C/F TFBGA320 yokuvota
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21

VSS

PA9

PE13 PE12

PD12

PG0

PE15

PG7

PH13

PF3

PB9

PF0

PC10 PC12

PC9

VSS

PD0

PE11

PF5

PA15

PD8

PE0

PE9

PH14

PE8

PG4

PF1

VSS

PB5

PC6

PB15 PB14

PE3

PC11

DDR_ DQ4

DDR_ DQ1

DDR_ DQ0

PB6

PD3

PE14 PD14

PD1

PB7

PD4

PD5

PD9

PE10 PB12

PH9

PC7

PB3

VDD SD2

PB4

PG6

PC8

PD2

DDR_ DDR_ DQS0P DQS0N

PB8

PD6

PH12

PD10

PE7

PF2

PB13

VSS

DDR_ DQ2

DDR_ DQ5

DDR_ DQM0

PH2

PH8

VSS

VDD CPU

PE1

PD15

VDD CPU

VSS

VDD

PB10

PH10

VDDQ_ DDR

VSS

VDD SD1

DDR_ DQ3

DDR_ DQ6

PF8

PG9

PD11 PA12

VSS

DDR_ DQ7

DDR_ A5

VSS

PF6

PG10

PG5

VDD CPU

PE4

PF10 PG15

PG8

PH7

PD13

PB2

PF9

VDD CPU

VSS

VDD

VDD CPU

I-VDD CORE

VSS

VDD

VSS

VDDQ_ DDR

VSS

VDD

VSS

I-VDD CORE

VSS

VDD

I-VDD CORE

VDDQ_ DDR

DDR_ A13

DDR_ A2

DDR_ A9

DDR_ SETHA FUTHI
N

DDR_ BA2

DDR_ A3

DDR_ A0

DDR_ A7

DDR_ BA0

DDR_ CSN

DDR_ ODT

VSS_ PLL

VDD_ PLL

PH11

VDD CPU

PC15-

VBAT OSC32 PI3

VSS

_OUT

PC14-

VSS OSC32 PC13

_IN

VDD

PE2

PF4

PH6

PI2

VDD CPU
I-VDD CORE
VSS
VDD

VSS

I-VDD CORE

VSS

I-VDD CORE

VSS

VDD

I-VDD CORE

VSS

VDD

I-VDD CORE

VDDQ_ DDR
VSS
VDDQ_ DDR
I-VDD CORE

VDDQ_ DDR

DDR_ WEN

DDR_ RASN

VSS

DDR_ A10

DDR_CASN

DDR_ CLKN

VDDQ_ DDR

DDR_ A12

DDR_ CLKP

DDR_ A15

DDR_ A11

DDR_ A14

DDR_ CKE

DDR_ A1

PA8

PF7

PI1

PI0

VSS

DDR_ DTO1

DDR_ ATO

DDR_ A8

DDR_ BA1

PG1

PG11

PH3

VDD

VSS

VDD

I-VDD CORE

VSS

VDD

I-VDD CORE

VSS

VDDQ_ DDR

DDR_ A4

DDR_ ZQ

DDR_ A6

VSS

PE6

PH0OSC_IN

PA13

VSS

DDR_ VREF

DDR_ DQ10

DDR_ DQ8

VSS

PH1OSC_ PHUMA

VSS_ ANA

VSS

VDD

VDDA VSSA

PA6

VSS

I-VDD CORE

VSS

VDD VDDQ_ CORE DDR

VSS

PWR_ IVULIWE

DDR_ DQ13

DDR_ DQ9

PD7

VDD_ ANA

PG2

PA7

VREF-

NJ TRST

VDDA1 V1_ REG

VSS

PWR_ DDR_ DDR_ LP DQS1P DQS1N

PWR_

PG3

PG12 CPU_ PF13

PC0

PC3 VREF+ PB0

PA3

PE5

VDD

USB_ RREF

PA14

VDD 3V3_ USBHS

VDDA1 V8_ REG

VSS

BYPAS S_REG
1V8

PH5

DDR_ DQ12

DDR_ DQ11

DDR_ DQM1

PA11

PF14

PA0

PA2

PA5

PF11

PC4

PB1

PC1

PG14

I-NRST

PF15

USB_ VSS_

PI6-

I-USB_

PI4-

VDD_

DM2 USBHS BOOT2 DP1 BOOT0 PLL2

PH4

DDR_ DQ15

DDR_ DQ14

VSS

PB11

PA1

PF12

PA4

PC5

PG13

PC2

PDR_ IVULIWE

USB_ DP2

PI5-

I-USB_

I-BOOT1 DM1

VSS_ PLL2

PA10

PI7

VSS

Lo mfanekiso ungasentla ubonisa umphezulu wepakethe view.

MSv65068V5

I-DS13875 Rev 5

51/219
97

I-pinout, inkcazo yephini kunye neminye imisebenzi

STM32MP133C/F

Itheyibhile 6. Ilivo/izifinyezo ezisetyenziswe kuluhlu lwepinout

Igama

Ushunqulelo

Ingcaciso

Igama lePin Uhlobo lwePin
I/O isakhiwo
Amanqaku Eminye imisebenzi Imisebenzi eyongezelelweyo

Ngaphandle kokuba kucaciswe ngenye indlela, umsebenzi wephini ngexesha nasemva kokusetha ngokutsha uyafana nelona gama lephini

Iphini yokunikezela

I-pin yongeniso kuphela

I-pin yesiphumo kuphela

I/O

I-pin yegalelo/yemveliso

I-analog okanye i-pin yezinga elikhethekileyo

I-FT(U/D/PD) 5 V inyamezela i-I/O (enotsalo olusisigxina / lokutsalela phantsi / ukutsalwa okucwangcisekileyo)

DDR

1.5 V, 1.35 V okanye 1.2 VI/O yeDDR3, DDR3L, LPDDR2/LPDDR3 interface

Umqondiso we-analog

RST

Phinda umisele iphini ngesixhasi sokutsalela phezulu esibuthathaka

_f(1) _a(2) _u(3) _h(4)

Ukhetho lwe-FT I/Os I2C FM+ inketho ye-Analog (enikezelwe yi-VDDA yenxalenye ye-analog ye-I/O) ukhetho lwe-USB (olunikezelwe yi-VDD3V3_USBxx yenxalenye ye-USB ye-I/O) Ukukhutshwa kwesantya esiphezulu sohlobo lwe-1.8V. VDD (ye-SPI, SDMMC, QUADSPI, TRACE)

_vh(5)

Inketho enesantya esiphezulu kakhulu sohlobo lwe-1.8V. VDD (ye-ETH, SPI, SDMMC, QUADSPI, TRACE)

Ngaphandle kokuba kuchazwe ngenye indlela ngenqaku, zonke ii-I/Os zisetwa njengamagalelo adadayo ngexesha nasemva kokusetha ngokutsha

Imisebenzi ekhethiweyo ngeerejista zeGPIOx_AFR

Imisebenzi ekhethwe ngokuthe ngqo/enikwe amandla ngeerejista zeperipheral

1. Ulwakhiwo lwe-I/O olunxulumeneyo kwiTheyibhile 7 zezi: FT_f, FT_fh, FT_fvh 2. Ulwakhiwo lwe-I/O olunxulumeneyo kwiThebhile yesi-7 zezi: FT_a, FT_ha, FT_vha 3. Ulwakhiwo lwe-I/O olunxulumeneyo kwiTheyibhuli yesi-7 zezi: FT_u 4. I-I/O yezakhiwo eziyeleleneyo zi: FT_fvh, FT_vh, FT_ha, FT_vha 7. I/O izakhiwo ezinxulumeneyo kwiTheyibhile 5 zezi: FT_vh, FT_vha, FT_fvh

52/219

I-DS13875 Rev 5

STM32MP133C/F

I-pinout, inkcazo yephini kunye neminye imisebenzi

Inombolo yePin

Uluhlu 7. STM32MP133C/F iinkcazo zebhola

Imisebenzi yebhola

Igama lephini (umsebenzi emva
seta ngokutsha)

Eminye imisebenzi

Imisebenzi eyongezelelweyo

LFBGA289 TFBGA289 TFBGA320
I-Pin uhlobo lwesakhiwo se-I / O
Amanqaku

K10 F6 U14 A2 D2 A2 A1 A1 T5 M6 F3 U7
D4 E4 B2
B2 D1 B3 B1 G6 C2
C3 E2 C3 F6 D4 E7 E4 E1 B1
C2 G7 D3
C1 G3 C1

I-VDDCORE S

–

PA9

I/O FT_h

VSS VDD

–

PE11

I/O FT_vh

PF5

I/O FT_h

PD3

I/O FT_f

PE14

I/O FT_h

VDDCPU

–

PD0

Mna/O FT

PH12

I/O FT_fh

PB6

I/O FT_h

–

TIM1_CH2, I2C3_SMBA,

–

DFSDM1_DATIN0, USART1_TX, UART4_TX,

FMC_NWAIT(ibhuthi)

–

TIM1_CH2,

UART2_CTS/USART2_NSS,

SAI1_D2,

–

SPI4_MOSI/I2S4_SDO, SAI1_FS_A, USART6_CK,

ETH2_MII_TX_ER,

ETH1_MII_TX_ER,

FMC_D8(boot)/FMC_AD8

–

TRACED12, DFSDM1_CKIN0, I2C1_SMBA, FMC_A5

TIM2_CH1,

–

USART2_CTS/USART2_NSS, DFSDM1_CKOUT, I2C1_SDA,

SAI1_D3, FMC_CLK

TIM1_BKIN, SAI1_D4,

UART8_RTS/UART8_DE,

–

QUADSPI_BK1_NCS,

QUADSPI_BK2_IO2,

FMC_D11(boot)/FMC_AD11

–

SAI1_MCLK_A, SAI1_CK1,

–

FDCAN1_RX,

FMC_D2(boot)/FMC_AD2

UART2_TX, TIM5_CH3,

DFSDM1_CKIN1, I2C3_SCL,

–

SPI5_MOSI, SAI1_SCK_A, QUADSPI_BK2_IO2,

SAI1_CK2, ETH1_MII_CRS,

FMC_A6

I-TRACED6, TIM16_CH1N,

TIM4_CH1, TIM8_CH1,

–

UART1_TX, SAI1_CK2, QUADSPI_BK1_NCS,

ETH2_MDIO, FMC_NE3,

HDP6

–
–
–
TAMP_IN6 -
–
–

I-DS13875 Rev 5

53/219
97

I-pinout, inkcazo yephini kunye neminye imisebenzi

STM32MP133C/F

Inombolo yePin

Uluhlu 7. STM32MP133C/F iinkcazo zebhola (iyaqhutywa)

Imisebenzi yebhola

Igama lephini (umsebenzi emva
seta ngokutsha)

Eminye imisebenzi

Imisebenzi eyongezelelweyo

LFBGA289 TFBGA289 TFBGA320
I-Pin uhlobo lwesakhiwo se-I / O
Amanqaku

A17 A17 T17 M7 – J13 D2 G9 D2 F5 F1 E3 D1 G4 D1
E3 F2 F4 F8 D6 E10 F4 G2 E2 C8 B8 T21 E2 G1 F3
E1 G5 F2 G5 H3 F1 M8 – M5

VSS VDD PD6 PH8 PB8
PA12 VDDCPU
PH2 VSS PD11
PG9 PF8 VDD

–

Mna/O FT

I/O FT_fh

I/O FT_f

I/O FT_h

–

I/O FT_h

–

I/O FT_h

I/O FT_f

I/O FT_h

–

TIM16_CH1N, SAI1_D1, SAI1_SD_A, UART4_TX(isihlangu)

TRACED9, TIM5_ETR,

–

UART2_RX, I2C3_SDA,

FMC_A8, HDP2

TIM16_CH1, TIM4_CH3,

I2C1_SCL, I2C3_SCL,

–

DFSDM1_DATIN1,

UART4_RX, SAI1_D1,

FMC_D13(boot)/FMC_AD13

TIM1_ETR, SAI2_MCLK_A,

UART1_RTS/USART1_DE,

–

ETH2_MII_RX_DV/ETH2_

RGMII_RX_CTL/ETH2_RMII_

CRS_DV, FMC_A7

–

LPTIM1_IN2, UART7_TX,

QUADSPI_BK2_IO0(isiqalo),

–

ETH2_MII_CRS,

ETH1_MII_CRS, FMC_NE4,

ETH2_RGMII_CLK125

–

LPTIM2_IN2, I2C4_SMBA,

UART3_CTS/USART3_NSS,

SPDIFX_IN0,

–

QUADSPI_BK1_IO2,

ETH2_RGMII_CLK125,

FMC_CLE(boot)/FMC_A16,

UART7_RX

DBTRGO, I2C2_SDA,

–

USART6_RX, SPDIFRX_IN3, FDCAN1_RX, FMC_NE2,

FMC_NCE(ibhuthi)

TIM16_CH1N, TIM4_CH3,

–

TIM8_CH3, SAI1_SCK_B, USART6_TX, TIM13_CH1,

QUADSPI_BK1_IO0(isiqalo)

–

–
–
WKUP1
–

54/219

I-DS13875 Rev 5

STM32MP133C/F

I-pinout, inkcazo yephini kunye neminye imisebenzi

Inombolo yePin

Uluhlu 7. STM32MP133C/F iinkcazo zebhola (iyaqhutywa)

Imisebenzi yebhola

Igama lephini (umsebenzi emva
seta ngokutsha)

Eminye imisebenzi

Imisebenzi eyongezelelweyo

LFBGA289 TFBGA289 TFBGA320
I-Pin uhlobo lwesakhiwo se-I / O
Amanqaku

F3 J3 H5
F9 D8 G5 F2 H1 G3 G4 G8 H4
F1 H2 G2 D3 B14 U5 G3 K2 H3 H8 F10 G2 L1 G1 D12 C5 U6 M9 K4 N7 G1 H9 J5

PG8

I/O FT_h

VDDCPU PG5

–

I/O FT_h

PG15

I/O FT_h

PG10

I/O FT_h

VSS

–

PF10

I/O FT_h

I-VDDCORE S

–

PF6

I/O FT_vh

VSS VDD

–

PF9

I/O FT_h

TIM2_CH1, TIM8_ETR,

SPI5_MISO, SAI1_MCLK_B,

UART3_RTS/USART3_DE,

–

SPDIFX_IN2,

QUADSPI_BK2_IO2,

QUADSPI_BK1_IO3,

FMC_NE2, ETH2_CLK

–

TIM17_CH1, ETH2_MDC, FMC_A15

UART6_CTS/USART6_NSS,

–

UART7_CTS, QUADSPI_BK1_IO1,

ETH2_PHY_INTN

SPI5_SCK, SAI1_SD_B,

–

UART8_CTS, FDCAN1_TX, QUADSPI_BK2_IO1(isihlangu),

FMC_NE3

–

TIM16_BKIN, SAI1_D3, TIM8_BKIN, SPI5_NSS, – USART6_RTS/USART6_DE, UART7_RTS/UART7_DE,
QUADSPI_CLK(ibhuthi)

–

TIM16_CH1, SPI5_NSS,

UART7_RX(ibhuthi),

–

QUADSPI_BK1_IO2, ETH2_MII_TX_EN/ETH2_

RGMII_TX_CTL/ETH2_RMII_

TX_EN

–

TIM17_CH1N, TIM1_CH1,

DFSDM1_CKIN3, SAI1_D4,

–

UART7_CTS, UART8_RX, TIM14_CH1,

QUADSPI_BK1_IO1(isiqalo),

QUADSPI_BK2_IO3, FMC_A9

TAMP_IN4
–
TAMP_IN1 -

I-DS13875 Rev 5

55/219
97

I-pinout, inkcazo yephini kunye neminye imisebenzi

STM32MP133C/F

Inombolo yePin

Uluhlu 7. STM32MP133C/F iinkcazo zebhola (iyaqhutywa)

Imisebenzi yebhola

Igama lephini (umsebenzi emva
seta ngokutsha)

Eminye imisebenzi

Imisebenzi eyongezelelweyo

LFBGA289 TFBGA289 TFBGA320
I-Pin uhlobo lwesakhiwo se-I / O
Amanqaku

H5 K1 H2 H6 E5 G7 H4 K3 J3 E5 D13 U11 H3 L3 J1
H1 H7 K3
J1 N1 J2 J5 J1 K2 J4 J2 K1 H2 H8 L4 K4 M3 M3

PE4 VDDCPU
PB2 VSS PH7
PH11
PD13 VDD_PLL VSS_PLL
PI3 PC13

I/O FT_h

–

I/O FT_h

–

I/O FT_fh

I/O FT_h

–

Mna/O FT

SPI5_MISO, SAI1_D2,

DFSDM1_DATIN3,

TIM15_CH1N, I2S_CKIN,

–

SAI1_FS_A, UART7_RTS/UART7_DE,

–

UART8_TX,

QUADSPI_BK2_NCS,

FMC_NCE2, FMC_A25

–

RTC_OUT2, SAI1_D1,

I2S_CKIN, SAI1_SD_A,

–

UART4_RX,

QUADSPI_BK1_NCS(isihlangu),

ETH2_MDIO, FMC_A6

TAMP_IN7

–

SAI2_FS_B, I2C3_SDA,

SPI5_SCK,

–

QUADSPI_BK2_IO3, ETH2_MII_TX_CLK,

–

ETH1_MII_TX_CLK,

QUADSPI_BK1_IO3

SPI5_NSS, TIM5_CH2,

SAI2_SD_A,

SPI2_NSS/I2S2_WS,

–

I2C4_SCL, USART6_RX, QUADSPI_BK2_IO0,

–

ETH2_MII_RX_CLK/ETH2_

RGMII_RX_CLK/ETH2_RMII_

REF_CLK, FMC_A12

LPTIM2_ETR, TIM4_CH2,

TIM8_CH2, SAI1_CK1,

–

SAI1_MCLK_A, USART1_RX, QUADSPI_BK1_IO3,

–

QUADSPI_BK2_IO2,

FMC_A18

–

(1)

SPDIFX_IN3,

TAMP_IN4/TAMP_

ETH1_MII_RX_ER

OUT5, WKUP2

RTC_OUT1/RTC_TS/

(1)

–

RTC_LSCO, TAMP_IN1/TAMP_

OUT2, WKUP3

56/219

I-DS13875 Rev 5

STM32MP133C/F

I-pinout, inkcazo yephini kunye neminye imisebenzi

Inombolo yePin

Uluhlu 7. STM32MP133C/F iinkcazo zebhola (iyaqhutywa)

Imisebenzi yebhola

Igama lephini (umsebenzi emva
seta ngokutsha)

Eminye imisebenzi

Imisebenzi eyongezelelweyo

LFBGA289 TFBGA289 TFBGA320
I-Pin uhlobo lwesakhiwo se-I / O
Amanqaku

J3 J4 N5

PI2

Mna/O FT

(1)

SDIFRX_IN2

TAMP_IN3/TAMP_ OUT4, WKUP5

K5 N4 P4

PI1

Mna/O FT

(1)

SDIFRX_IN1

RTC_OUT2/RTC_ LSCO,
TAMP_IN2/TAMP_ OUT3, WKUP4

F13 L2 U13

VSS

–

J2 J5 L2

VBAT

–

L4 N3 P5

PI0

Mna/O FT

(1)

SDIFRX_IN0

TAMP_IN8/TAMP_ OUT1

K2 M2

PC15OSC32_OUT

I/O

(1)

–

OSC32_OUT

F15 N2 U16

VSS

–

K1 M1 M2

PC14OSC32_IN

I/O

(1)

–

OSC32_IN

G7 E3 V16

VSS

–

H9 K6 N15 VDDCORE S

–

M10 M4 N9

VDD

–

G8 E6 W16

VSS

–

UART2_RX,

L2 P3 N2

PF4

I/O FT_h

–

ETH2_MII_RXD0/ETH2_ RGMII_RXD0/ETH2_RMII_

–

RXD0, FMC_A4

MCO1, SAI2_MCLK_A,

TIM8_BKIN2, I2C4_SDA,

SPI5_MISO, SAI2_CK1,

M2 J8 P2

PA8

I/O FT_fh –

UART1_CK, SPI2_MOSI/I2S2_SDO,

–

OTG_HS_SOF,

ETH2_MII_RXD3/ETH2_

RGMII_RXD3, FMC_A21

I-TRACECLK, TIM2_ETR,

I2C4_SCL, SPI5_MOSI,

SAI1_FS_B,

L1 T1 N1

PE2

I/O FT_fh

–

USART6_RTS/USART6_DE, SDIFRX_IN1,

–

ETH2_MII_RXD1/ETH2_

RGMII_RXD1/ETH2_RMII_

RXD1, FMC_A23

I-DS13875 Rev 5

57/219
97

I-pinout, inkcazo yephini kunye neminye imisebenzi

STM32MP133C/F

Inombolo yePin

Uluhlu 7. STM32MP133C/F iinkcazo zebhola (iyaqhutywa)

Imisebenzi yebhola

Igama lephini (umsebenzi emva
seta ngokutsha)

Eminye imisebenzi

Imisebenzi eyongezelelweyo

LFBGA289 TFBGA289 TFBGA320
I-Pin uhlobo lwesakhiwo se-I / O
Amanqaku

M1 J7 P3

PF7

I/O FT_vh –

M3 R1 R2

PG11

I/O FT_vh –

L3 J6 N3

PH6

I/O FT_fh –

N2 P4 R1

PG1

I/O FT_vh –

M11 – N12

VDD

–

N1 R2 T2

PE6

I/O FT_vh –

P1 P1 T3 PH0-OSC_IN I/O FT

–

I-G9 U1 N11

VSS

–

P2 P2 U2 PH1-OSC_OUT I/O FT

–

R2 T2 R3

PH3

I/O FT_fh –

M5 L5 U3 VSS_ANA S

–

TIM17_CH1, UART7_TX(isihlangu),
UART4_CTS, ETH1_RGMII_CLK125, ETH2_MII_TXD0/ETH2_ RGMII_TXD0/ETH2_RMII_
TXD0, FMC_A18
SAI2_D3, I2S2_MCK, USART3_TX, UART4_TX, ETH2_MII_TXD1/ETH2_ RGMII_TXD1/ETH2_RMII_
TXD1, FMC_A24
TIM12_CH1, USART2_CK, I2C5_SDA,
SPI2_SCK/I2S2_CK, QUADSPI_BK1_IO2,
ETH1_PHY_INTN, ETH1_MII_RX_ER, ETH2_MII_RXD2/ETH2_
RGMII_RXD2, QUADSPI_BK1_NCS
LPTIM1_ETR, TIM4_ETR, SAI2_FS_A, I2C2_SMBA,
SPI2_MISO/I2S2_SDI, SAI2_D2, FDCAN2_TX, ETH2_MII_TXD2/ETH2_ RGMII_TXD2, FMC_NBL0
–
MCO2, TIM1_BKIN2, SAI2_SCK_B, TIM15_CH2, I2C3_SMBA, SAI1_SCK_B, UART4_RTS/UART4_DE,
ETH2_MII_TXD3/ETH2_ RGMII_TXD3, FMC_A22
–
–
–
I2C3_SCL, SPI5_MOSI, QUADSPI_BK2_IO1, ETH1_MII_COL, ETH2_MII_COL, QUADSPI_BK1_IO0
–

–
–
–
OSC_IN OSC_OUT -

58/219

I-DS13875 Rev 5

STM32MP133C/F

I-pinout, inkcazo yephini kunye neminye imisebenzi

Inombolo yePin

Uluhlu 7. STM32MP133C/F iinkcazo zebhola (iyaqhutywa)

Imisebenzi yebhola

Igama lephini (umsebenzi emva
seta ngokutsha)

Eminye imisebenzi

Imisebenzi eyongezelelweyo

LFBGA289 TFBGA289 TFBGA320
I-Pin uhlobo lwesakhiwo se-I / O
Amanqaku

L5 U2 W1

PG3

I/O FT_fvh –

TIM8_BKIN2, I2C2_SDA, SAI2_SD_B, FDCAN2_RX, ETH2_RGMII_GTX_CLK,
ETH1_MDIO, FMC_A13

M4 L4 V2 VDD_ANA S

–

I-R1 U3 V3

PG2

Mna/O FT

–

MCO2, TIM8_BKIN, SAI2_MCLK_B, ETH1_MDC

T1 L6 W2

PG12

Mna/O FT

LPTIM1_IN1, SAI2_SCK_A,

SAI2_CK2,

UART6_RTS/USART6_DE,

UART3_CTS,

–

ETH2_PHY_INTN,

ETH1_PHY_INTN,

ETH2_MII_RX_DV/ETH2_

RGMII_RX_CTL/ETH2_RMII_

CRS_DV

F7 P6 R5

VDD

–

G10 E8 T1

VSS

–

N3 R3 V1

MCO1, UART2_CK,

I2C2_SCL, I2C3_SDA,

SPDIFX_IN0,

PD7

I/O FT_fh

–

ETH1_MII_RX_CLK/ETH1_ RGMII_RX_CLK/ETH1_RMII_

REF_CLK,

QUADSPI_BK1_IO2,

FMC_NE1

P3 K7 T4

PA13

Mna/O FT

–

DBTRGO, DBTRGI, MCO1, UART4_TX

R3 R4 W3 PWR_CPU_ON O FT

–

T2 N5 Y1

PA11

I/O FT_f

TIM1_CH4, I2C5_SCL,

SPI2_NSS/I2S2_WS,

UART1_CTS/USART1_NSS,

–

ETH2_MII_RXD1/ETH2_

RGMII_RXD1/ETH2_RMII_

RXD1, ETH1_CLK,

ETH2_CLK

N5 M6 AA2

PB11

TIM2_CH4, LPTIM1_OUT,

I2C5_SMBA, USART3_RX,

I/O FT_vh –

ETH1_MII_TX_EN/ETH1_

RGMII_TX_CTL/ETH1_RMII_

TX_EN

–
–
–
BOOTFAILN -
–

I-DS13875 Rev 5

59/219
97

I-pinout, inkcazo yephini kunye neminye imisebenzi

STM32MP133C/F

Inombolo yePin

Uluhlu 7. STM32MP133C/F iinkcazo zebhola (iyaqhutywa)

Imisebenzi yebhola

Igama lephini (umsebenzi emva
seta ngokutsha)

Eminye imisebenzi

Imisebenzi eyongezelelweyo

LFBGA289 TFBGA289 TFBGA320
I-Pin uhlobo lwesakhiwo se-I / O
Amanqaku

P4 U4

PF14(JTCK/SW CLK)

I/O

(2)

U3 L7 Y3

PA0

Mna/O FT_a -

JTCK/SWCLK
TIM2_CH1, TIM5_CH1, TIM8_ETR, TIM15_BKIN, SAI1_SD_B, UART5_TX,
ETH1_MII_CRS, ETH2_MII_CRS

N6 T3 W4

PF13

TIM2_ETR, SAI1_MCLK_B,

Mna/O FT_a -

DFSDM1_DATIN3,

UART2_TX, UART5_RX

G11 E10 P7

F10 -

–

R4 K8 AA3

P5 R5 Y4 U4 M7 Y5

VSS VDD PA1
PA2
PA5

–

I/O FT_a

I/O FT_a I/O FT_a

–

TIM2_CH2, TIM5_CH2, LPTIM3_OUT, TIM15_CH1N,
DFSDM1_CKIN0, – USART2_RTS/USART2_DE,
ETH1_MII_RX_CLK/ETH1_ RGMII_RX_CLK/ETH1_RMII_
REF_CLK

TIM2_CH3, TIM5_CH3, – LPTIM4_OUT, TIM15_CH1,
UART2_TX, ETH1_MDIO

TIM2_CH1/TIM2_ETR,

UART2_CK, TIM8_CH1N,

–

SAI1_D1, SPI1_NSS/I2S1_WS,

SAI1_SD_A, ETH1_PPS_OUT,

ETH2_PPS_OUT

T3 T4 W5

SAI1_SCK_A, SAI1_CK2,

PC0

Mna/O FT_ha –

I2S1_MCK, SPI1_MOSI/I2S1_SDO,

UART1_TX

T4 J9 AA4
R6 U6 W7 P7 U5 U8 P6 T6 V8

PF12

I/O FT_vha –

VREF+

–

VDDA

–

VREF-

–

SPI1_NSS/I2S1_WS, SAI1_SD_A, UART4_TX,
ETH1_MII_TX_ER, ETH1_RGMII_CLK125
–
–
–

–
ADC1_INP7, ADC1_INN3, ADC2_INP7, ADC2_INN3 ADC1_INP11, ADC1_INN10, ADC2_INP11, ADC2_INN10
–
ADC1_INP3, ADC2_INP3
ADC1_INP1, ADC2_INP1
ADC1_INP2
ADC1_INP0, ADC1_INN1, ADC2_INP0, ADC2_INN1, TAMP_IN3
ADC1_INP6, ADC1_INN2
–

60/219

I-DS13875 Rev 5

I-STM3

Amaxwebhu / Izibonelelo

I-STMicroelectronics STM32MP133C F 32-bit Arm Cortex-A7 1GHz MPU [pdf] Isikhokelo somsebenzisi
STM32MP133C F 32-bit Arm Cortex-A7 1GHz MPU, STM32MP133C, F 32-bit Arm Cortex-A7 1GHz MPU, Arm Cortex-A7 1GHz MPU, 1GHz, MPU

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I-STMicroelectronics STM32MP133C F 32-bit Arm Cortex-A7 1GHz MPU

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Inkqubo engaphantsi kweArm Cortex-A7

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Amaxwebhu / Izibonelelo

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