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

Okuqukethwe fihla

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

2 Imininingwane

3 I-Arm Cortex-A7 Subsystem

4 Izinkumbulo

5 Isilawuli se-DDR

6 Imibuzo Evame Ukubuzwa

7 Amadokhumenti / Izinsiza

7.1 Izithenjwa

8 Okuthunyelwe Okuhlobene

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

Imininingwane

Ingqikithi: I-Arm Cortex-A7
Izinkumbulo: I-SDRAM Yangaphandle, I-SRAM Eshumekiwe

Ibhasi Ledatha: I-16-bit parallel interface
Ukuphepha/Ukuphepha: Ukusetha Kabusha Nokuphathwa kwamandla, i-LPLV-Stop2, i-Standby

Iphakheji: LFBGA, TFBGA enephimbo elincane elingu-0.5 mm
Ukuphathwa Kwewashi

Okokufaka/Okuphumayo okunenjongo evamile
I-interconnect Matrix

4 Abalawuli be-DMA
I-Communications Peripherals: Kufika ku-29

Amapheripheral analoji: 6
Izibali zesikhathi: Kufika ku-24, ama-Watchdogs: 2

I-Hardware Acceleration
Imodi yokususa iphutha

Amafuse: 3072-bit kufaka phakathi i-ID ehlukile ne-HUK yokhiye be-AES 256
I-ECOPACK2 iyahambisana

I-Arm Cortex-A7 Subsystem

I-Arm Cortex-A7 subsystem ye-STM32MP133C/F ihlinzeka...

Izinkumbulo

Idivayisi ihlanganisa i-SDRAM Yangaphandle kanye ne-SRAM Eshumekiwe yokugcina idatha...

Isilawuli se-DDR

Isilawuli se-DDR3/DDR3L/LPDDR2/LPDDR3 silawula ukufinyelela kwememori…

Ukuphathwa Kokuhlinzekwa Kwamandla
Uhlelo lokuhlinzekwa kwamandla kagesi kanye nomphathi baqinisekisa ukulethwa kwamandla okuzinzile…

Ukuphathwa Kwewashi
I-RCC iphethe ukusatshalaliswa kwewashi kanye nezilungiselelo...

Okokufaka/Izinjongo Ezijwayelekile (GPIOs)
Ama-GPIO ahlinzeka ngamakhono okuxhumana kumadivayisi angaphandle…

I-TrustZone Protection Controller
I-ETZPC ithuthukisa ukuphepha kohlelo ngokuphatha amalungelo okufinyelela…

I-Bus-Interconnect Matrix
I-matrix isiza ukudluliswa kwedatha phakathi kwamamojula ahlukene…

Imibuzo Evame Ukubuzwa

Q: Ingakanani inombolo ephezulu yezingcingo ezisekelwayo?
A: I-STM32MP133C/F isekela ama-peripherals okuxhumana angafika kwangu-29.

Q: Mangaki ama-analog peripherals atholakalayo?
A: Idivayisi inikeza okuphathelene ne-analog okungu-6 kwemisebenzi ehlukahlukene ye-analog.

“`

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I-STM32MP133C STM32MP133F

I-Arm® Cortex®-A7 kufika ku-1 GHz, 2×ETH, 2×CAN FD, 2×ADC, 24 timer, umsindo, i-crypto ne-adv. ezokuphepha
I-Datasheet - idatha yokukhiqiza

Izici
Kufaka phakathi ubuchwepheshe be-ST besimanje obunelungelo lobunikazi
Ingqikithi
· I-32-bit Arm® Cortex®-A7 L1 32-Kbyte I / 32-Kbyte D 128-Kbyte ileveli ehlanganisiwe yeleveli 2 inqolobane ye-Arm® NEONTM kanye ne-Arm® TrustZone®

Izinkumbulo
· Inkumbulo ye-DDR yangaphandle ifika ku-1 Gbyte kufika ku-LPDDR2/LPDDR3-1066 16-bit kufika ku-DDR3/DDR3L-1066 16-bit
· 168 Kbytes we-SRAM yangaphakathi: 128 Kbytes we-AXI SYSRAM + 32 Kbytes we-AHB SRAM kanye no-8 Kbytes we-SRAM esizindeni Sesipele
· I-Dual Quad-SPI memory interface · Flexible yangaphandle isilawuli senkumbulo nokufika
Ibhasi ledatha engu-16-bit: isixhumi esibonakalayo esihambisanayo sokuxhuma ama-IC angaphandle nezinkumbulo ze-SLC NAND kuze kufike ku-8-bit ECC
Ukuphepha/ukuphepha
· Secure boot, TrustZone® peripherals, 12 xtampamaphinikhodi afaka u-5 x asebenzayo tampers
· Izinga lokushisa, voltage, imvamisa kanye nokuqapha okungu-32 kHz
Hlela kabusha nokuphathwa kwamandla
· 1.71 V kuya ku-3.6 VI/Os ukunikezwa (5 V-tolerant I/Os) · POR, PDR, PVD and BOR · On-chip LDOs (USB 1.8 V, 1.1 V) · Isilawuli sekhophi yasenqolobaneni (~0.9 V) · Izinzwa zokushisa zangaphakathi · Izindlela zamandla aphansi: Ukulala, LPStop, Stop
I-LPLV-Stop2 kanye ne-Standby

I-LFBGA

I-TFBGA

LFBGA289 (14 × 14mm) Pitch 0.8 mm

TFBGA289 (9 × 9 mm) TFBGA320 (11 × 11 mm)
iphimbo elincane 0.5 mm

· Ukugcinwa kwe-DDR kumodi yokulinda · Izilawuli ze-chip engumngane we-PMIC

Ukuphathwa kwewashi
Ama-oscillator angaphakathi: 64 MHz HSI oscillator, 4 MHz CSI oscillator, 32 kHz LSI oscillator
· Ama-oscillator angaphandle: 8-48 MHz HSE oscillator, 32.768 kHz LSE oscillator
· 4 × PLLs ngemodi eyingxenye

Okufakwayo/injongo evamile
· Kufika kumachweba we-I/O avikelekile angu-135 anamandla okuphazamisa
· Kufika ku-6 wakeup

I-interconnect matrix
· Omatikuletsheni amabhasi ama-2 64-bit Arm® AMBA® AXI interconnect, kufika ku-266 MHz 32-bit Arm® AMBA® AHB interconnect, kufika ku-209 MHz

Izilawuli ezi-4 ze-DMA zokukhulula i-CPU
· Amashaneli angama-56 esewonke
· 1 x isilawuli sokufinyelela kumemori eqondile esinesivinini esikhulu esiyinhloko (MDMA)
· Ama-DMA angu-3 × anezimbobo ezimbili ane-FIFO futhi acele amakhono omzila ukuze aphathwe kahle

Septhemba 2024
Lolu ulwazi ngomkhiqizo okhiqizwa ngokugcwele.

Idatha ye-DS13875 Rev5

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www.st.com

I-STM32MP133C/F

Kufika kuma-peripherals wokuxhumana angama-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, kuhlanganise 4 nge-duplex egcwele
Ukunemba kwekilasi lomsindo we-I2S nge-PLL yomsindo wangaphakathi noma iwashi langaphandle)(+2 QUADSPI + 4 nge-USART) · 2 × SAI (umsindo we-stereo: I2S, PDM, SPDIF Tx) · SPDIF Rx enokufakwa okungu-4 · 2 × SDMMC kufika ku-8 bits (SD/e ·MMCle ×D × CAN × CAN CAN CAN Umsingathi we-USB 2 onesivinini esikhulu noma umsingathi we-2 × USB 2.0 onesivinini esikhulu

+ 1 × i-USB 2.0 ye-OTG enesivinini esikhulu ngesikhathi esisodwa · 2 x Ethernet MAC/GMAC IEEE 1588v2 hardware, MII/RMII/RGMII
6 ama-analogue peripherals
· 2 × ADCs anobukhulu obungu-12-bit. ukulungiswa kufika ku-5 Msps
· 1 x inzwa yezinga lokushisa · 1 x isihlungi sedijithali semoduli ye-sigma-delta
(DFSDM) enamashaneli angu-4 nezihlungi ezingu-2 · Inkomba ye-ADC yangaphakathi noma yangaphandle i-VREF+
Kufika ku-24 izikhathi nezinja ezilindile ezi-2
· Izibali sikhathi ezingu-2 × 32-bit ezinokufika ku-4 IC/OC/PWM noma isibali se-pulse kanye ne-quadrature (okwenyukayo) kokufaka ikhodi
· 2 × 16-bit izibali sikhathi ezithuthukisiwe · 10 × 16-bit izibali sikhathi zenjongo evamile (kuhlanganise
2 izibali sikhathi eziyisisekelo ezingenayo i-PWM) · 5 × 16-bit izibali-sikhathi zamandla aphansi · Vikela i-RTC ngokunemba kwesekhondi elincane futhi
ikhalenda yehadiwe · 4 Cortex®-A7 izibali sikhathi zesistimu (ivikelekile,
okungavikelekile, okubonakalayo, i-hypervisor) · 2 × ama-watchdogs azimele
Ukusheshisa kwezingxenyekazi zekhompyutha
· I-AES 128, 192, 256 DES/TDES

2 (ezizimele, ezizimele zivikelekile) 5 (2 zivikelekile) 4 5 (3 zivikelekile)
I-4 + 4 (kufaka phakathi i-USART evikelekile engu-2), enye ingaba umthombo wokuqalisa
2 (kufika kuziteshi ezi-4 zomsindo), ezine-I2S master/slave, okokufaka kwe-PCM, izimbobo ze-SPDIF-TX 2
I-HSPHY eshumekiwe ene-BCD Embedded HS PHY ene-BCD (evikelekile), ingaba umthombo wokuqalisa
I-2 × i-HS yabiwe phakathi kokufakiwe kwe-Host kanye ne-OTG 4

2 (1 × TTCAN), ukulinganisa kwewashi, 10 Kbyte okwabelwana kubhafa 2 (8 + 8 bits) (kuyavikeleka), i-e·MMC noma i-SD ingaba umthombo webhuthi 2 amandla okunikezwa kwamandla azimele okusebenzelana kwekhadi le-SD
1 (i-dual-quad) (evikelekile), ingaba umthombo wokuqalisa

–
–
Bhuqa
–
Bhuqa
I-Boot Boot
(1)

Ikheli elihambisana/idatha 8/16-bit FMC Parallel AD-mux 8/16-bit
I-NAND 8/16-bit 10/100M/Gigabit Ethernet DMA Cryptography
I-Hash True random generator amaFuse (iyahleleka ngesikhathi esisodwa)

4 × CS, kufika ku-4 × 64 Mbyte
Yebo, i-2× CS, SLC, BCH4/8, ingaba umthombo we-boot 2 x (MII, RMI, RGMII) ene-PTP ne-EEE (evikelekile)
Izimo ezi-3 (1 okuvikelekile), i-MDMA PKA yesiteshi esingu-33 (enokuvikelwa kwe-DPA), i-DES, i-TDES, i-AES (enokuvikelwa kwe-DPA)
(konke kuvikeleke) SHA-1, SHA-224, SHA-256, SHA-384, SHA-512, SHA-3, HMAC
(kuyavikeleka) I-True-RNG (ivikelekile) amabhithi asebenzayo angu-3072 (ivikelekile, amabhithi angu-1280 atholakalela umsebenzisi)

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Ibhuthi -
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I-STM32MP133C/F

Incazelo

Ithebula 1. Izici ze-STM32MP133C/F nokubala kwe-peripheral (kuyaqhubeka)

I-STM32MP133CAE STM32MP133FAE STM32MP133CAG STM32MP133FAG STM32MP133CAF STM32MP133FAF Izinhlobonhlobo

Izici

I-LFBGA289

I-TFBGA289

I-TFBGA320

Ama-GPIO anokuphazamiseka (inani eliphelele)

135(2)

Izikhonkwane zokuvuka ze-GPIO ezivikelekile

Konke
6

Tamper pins (esebenzayo tampisiza)

12 (5)

DFSDM Kufika ku-12-bit ADC evumelanisiwe

Amashaneli angu-4 anezihlungi ezi-2

–

2(3) (kufika ku-5 Msps ku-12-bit ngayinye) (kuyavikeleka)

I-ADC1: Iziteshi eziyi-19 ezifaka i-1x yangaphakathi, iziteshi eziyi-18 ezitholakalayo

12-bit ADC amashaneli esewonke(4)

umsebenzisi kufaka phakathi ukuhluka okungu-8x

–

I-ADC2: Iziteshi eziyi-18 ezifaka i-6x yangaphakathi, iziteshi eziyi-12 ezitholakalayo

umsebenzisi kufaka phakathi ukuhluka okungu-6x

Iphinikhodi yokufaka ye-ADC VREF VREF+ yangaphakathi

1.65 V, 1.8 V, 2.048 V, 2.5 V noma VREF+ okokufaka -
Yebo

1. I-QUADSPI ingase iqale kuma-GPIO azinikele noma isebenzise ama-GPIO athile e-FMC Nand8 (PD4, PD1, PD5, PE9, PD11, PD15 (bona Ithebula 7: STM32MP133C/F izincazelo zebhola).
2. Lesi sibalo se-GPIO sesiphelele sihlanganisa ama-J amaneTAG Ama-GPIO nama-BOOT GPIO amathathu anomkhawulo wokusetshenziswa (angase angqubuzane noxhumo lwedivayisi yangaphandle phakathi nokuskena komngcele noma ukuqalisa).
3. Uma womabili ama-ADC asetshenziswa, iwashi le-kernel kufanele lifane kuwo womabili ama-ADC futhi izikali ze-ADC ezishumekiwe azikwazi ukusetshenziswa.
4. Ngaphezu kwalokho, kukhona namashaneli angaphakathi: – ADC1 ishaneli yangaphakathi: VREFINT – ADC2 iziteshi zangaphakathi: izinga lokushisa, ivolumu yangaphakathitagireferensi ye-e, VDDCORE, VDDCPU, VDDQ_DDR, VBAT / 4.

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Incazelo 18/219

I-STM32MP133C/F

Umfanekiso 1. STM32MP133C/F block diagram

Izimpahla ze-IC

@VDDA

hsi

I-AXIM: I-Arm 64-bit AXI interconnect (266 MHz) T

@VDDCPU

I-GIC

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

32K D$

32K I$

I-CNT (isikhathi) T

I-ETM

2561K2B8LK2B$L+2$SCU T
async

128 amabhithi

CSI

I-LSI

Isikhathi sokususa iphuthaamp

ijeneretha TSGEN

I-DAP
(JTAG/SWD)

I-SYSRAM 128KB

I-ROM 128KB

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

I-FIFO

I-BKPSRAM 8KB

I-RNG

I-HASH

16b PHY

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

async

I-CRYP

SAES

I-DDRMCE T TZC T

I-DDRPHYC
T

I-DLY

8b I-QUADSPI (okubili) T

16b

I-FMC

CRC

I-DLYBSD1

(SDMMC1 DLY control)

I-DLYBSD2

(SDMMC2 DLY control)

I-DLYBQS

(Isilawuli se-QUADSPI DLY)

I-FIFO FIFO

I-DLY DLY

14 8b SDMMC1 T 14 8b SDMMC2 T

I-PHY

I-USBH

(2xHS Umsingathi)

I-PLLUSB

I-FIFO

I-PKA

I-FIFO

T MDMA 32 iziteshi

AXIMC TT

17 16b Trace port

ETZPC

IWDG1

@VBAT

I-BSEC

Amafuse e-OTP

@VDDA

I-RTC / AWU

TAMP / Imibhalo yesipele T

@VBAT

I-LSE (32kHz XTAL)

Isikhathi sesistimu STGENC

isizukulwane

I-STGENR

I-USBPHYC
(USB 2 x PHY control)
IWDG2

@VBAT

@VDDA

I-VREFBUF

16b LPTIM2

16b LPTIM3

16b LPTIM4

16b LPTIM5

Izikhonkwane ze-BOOT

I-SYSCFG

I-HDP

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

I-SAI1

I-SAI2

4ch DFSDM

Isilondolozi 10KB CCU

I-FDCAN1

I-FDCAN2

I-FIFO FIFO
I-APB2 (100 MHz)

8KB FIFO
I-APB5 (100MHz)

I-APB3 (100 MHz)

APB4

i-async AHB2APB

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

I-AHB2APB

I-DMA1
8 imifudlana
DMAMUX1
I-DMA2
8 imifudlana

DMAMUX2

I-DMA3
8 imifudlana

I-PMB (i-prosesa monitor)
I-DTS (inzwa yokushisa yedijithali)

Voltage nabalawuli

@VDDA

Ukugadwa kokuhlinzeka

I-FIFO

2x2 Matrix
I-AHB2APB

64 bits AXI

64bits AXI master

32 bits AHB 32 bits AHB master

32 bits APB

T TrustZone ukuvikelwa kokuphepha

I-AHB2APB

I-APB2 (100 MHz)

I-APB1 (100 MHz)
FIFO FIFO FIFO FIFO FIFO

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

@VBAT
T
I-FIFO

I-HSE (XTAL)

PLL1/2/3/4

I-RCC

T PWR

I-EXTI

16 okwedlule

176

USBO

(OTG HS)

I-PHY

12b ADC1

12b ADC2

I-GPIOA

16b

GPIOB

16b

I-GPIOC

16b

I-GPIOD

16b

I-GPIOE

16b

I-GPIOF

16b

I-GPIOG 16b 16

I-GPIOH

16b

I-GPIOI

16b

I-AHB2APB

UART1

I-Smartcard IrDA

UART2

I-Smartcard IrDA

I-SPI4/I2S4

I-SPI5

I2C3/SMBUS

I2C4/SMBUS

I2C5/SMBUS

Isihlungi Sesihlungi

I-TIM12

16b

I-TIM13

16b

I-TIM14

16b

I-TIM15

16b

I-TIM16

16b

I-TIM17

16b

I-TIM2 TIM3 TIM4

32b

16b

I-TIM5 TIM6 TIM7

32b

16b

I-LPTIM1 16b

UART3

I-Smartcard IrDA

UART4

UART5

UART7

UART8

Hlunga Hlunga

I2C1/SMBUS

I2C2/SMBUS

I-SPI2/I2S2

I-SPI3/I2S3

UART6

I-Smartcard IrDA

I-SPI1/I2S1

I-FIFO FIFO

I-MSv67509V2

Idatha ye-DS13875 Rev5

I-STM32MP133C/F

Iyasebenza ngaphezuluview

3.1
3.1.1
3.1.2

I-Arm Cortex-A7 subsystem
Izici
· I-Architecture ye-ARMv7-A · 32-Kbyte L1 inqolobane yemiyalelo · 32-Kbyte L1 inqolobane yedatha · 128-Kbyte level2 inqolobane · I-Arm + Thumb®-2 isethi yomyalelo · Ubuchwepheshe bokuphepha be-Arm TrustZone · I-Arm NEON advanced SIMD · Izandiso ze-DSP kanye ne-SIMD · I-VFPv4 Eyizikhonkwane ze-Hardware tracepoint · Ukwesekwa kwe-Hardware entantayo ye-VFPv160 Isilawuli se-generic interrupt esihlanganisiwe (GIC) esinokuphazamiseka kwe-peripheral okwabiwe okungu-XNUMX · Isibali sikhathi esihlanganisiwe esijwayelekile (CNT)
Kuphelileview
Iphrosesa ye-Cortex-A7 iyiphrosesa yezinhlelo zokusebenza eyonga kakhulu edizayinelwe ukuhlinzeka ngokusebenza okucebile ezintweni ezigqokekayo ezisezingeni eliphezulu, nezinye izinhlelo zokusebenza ezishumekiwe ezinamandla aphansi nezabathengi. Inikeza ukusebenza kochungechunge olulodwa okungafika ku-20% kune-Cortex-A5 futhi inikeza ukusebenza okufanayo kune-Cortex-A9.
I-Cortex-A7 ihlanganisa zonke izici zokusebenza okuphezulu kwe-Cortex-A15 kanye ne-CortexA17 processors, okuhlanganisa ukusekelwa kwe-virtualization ku-hardware, i-NEON, kanye ne-interface yebhasi ye-128-bit AMBA 4 AXI.
Iphrosesa ye-Cortex-A7 yakhela phezu kwe-8-s eyonga amandlatagepayipini le-Cortex-A5 processor. Iphinde izuze kunqolobane ye-L2 ehlanganisiwe eyenzelwe amandla aphansi, nokubambezeleka kokwenziwe okuphansi kanye nokusekelwa okuthuthukisiwe kwe-OS kokugcinwa kwenqolobane. Phezu kwalokhu, kukhona ukubikezela kwegatsha okuthuthukisiwe nokusebenza okuthuthukisiwe kwesistimu yenkumbulo, ngomzila we-64-bit loadstore, amabhasi angu-128-bit AMBA 4 AXI kanye nosayizi we-TLB okhulisiwe (ukungena okungu-256, kusuka ku-128 yokungena kwe-Cortex-A9 ne-Cortex-A5), okwandisa ukusebenza kwemithwalo yemisebenzi emikhulu efana web ukuphequlula.
Ubuchwepheshe besithupha-2
Iletha ukusebenza okuphezulu okuphezulu kwekhodi ye-Arm evamile kuyilapho ihlinzeka ngokuncishiswa okungafika ku-30 % kwimfuneko yememori yokugcina imiyalelo.
Ubuchwepheshe be-TrustZone
Iqinisekisa ukuqaliswa okuthembekile kwezicelo zokuphepha kusukela ekuphathweni kwamalungelo edijithali kuya ekukhokheni nge-elekthronikhi. Ukusekelwa okubanzi okuvela kozakwethu bezobuchwepheshe kanye nezimboni.

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Iyasebenza ngaphezuluview

I-STM32MP133C/F

I-NEON
Ubuchwepheshe be-NEON bungasheshisa ama-algorithms okucubungula ama-multimedia namasignali afana ne-video encode/decode, ihluzo ze-2D/3D, amageyimu, ukucubungula umsindo nenkulumo, ukucutshungulwa kwesithombe, ucingo, nokuhlanganisa umsindo. I-Cortex-A7 ihlinzeka ngenjini enikeza kokubili ukusebenza nokusebenza kweyunithi yephoyinti elintantayo le-Cortex-A7 (i-FPU) kanye nokuqaliswa kwesethi yemiyalelo ye-NEON ye-SIMD ethuthukisiwe ukuze kuthuthukiswe futhi imisebenzi yemidiya nokusebenza kwesignali. I-NEON inweba i-Cortex-A7 processor ye-FPU ukuze inikeze i-quad-MAC kanye nesethi yerejista eyengeziwe engu-64-bit kanye ne-128-bit esekela isethi ecebile yemisebenzi ye-SIMD ngaphezu kuka-8-, 16- no-32-bit integer kanye nenani ledatha lamaphoyinti angu-32-bit antantayo.
I-Hardware virtualization
Ukusekelwa kwezingxenyekazi zekhompuyutha ezisebenza kahle kakhulu zokuphathwa kwedatha nokulamula, lapho izindawo zamasofthiwe amaningi kanye nezinhlelo zazo zikwazi ukufinyelela kanyekanye amandla esistimu. Lokhu kuvumela ukugcwaliseka kwamadivayisi aqinile, anezindawo ezibonakalayo eziqhelelene kahle.
Izilondolozi ze-L1 ezilungiselelwe
Ukusebenza namandla athuthukisiwe ama-L1 caches ahlanganisa izindlela zokubambezeleka zokufinyelela ezincane ukuze kukhuliswe ukusebenza nokunciphisa ukusetshenziswa kwamandla.
Isilawuli senqolobane ye-L2 ehlanganisiwe
Ihlinzeka ngokubambezeleka okuphansi kanye nokufinyelela komkhawulokudonsa ophezulu kumemori efakwe kunqolobane kumafrikhwensi aphezulu, noma ukunciphisa ukusetshenziswa kwamandla okuhlotshaniswa nokufinyelela kwememori ye-off-chip.
I-Cortex-A7 floating-point unit (FPU)
I-FPU ihlinzeka ngeziqondiso zephoyinti elintantayo elisebenza kahle kakhulu elilodwa neliphindwe kabili elihambisana nezakhiwo ze-Arm VFPv4 okuyisofthiwe ehambisana nezizukulwane ezedlule ze-Arm floating-point coprocessor.
Iyunithi yokulawula ye-Snoop (SCU)
I-SCU inesibopho sokuphatha ukuxhumana, ukulamula, ukuxhumana, i-cache kunqolobane kanye nokudluliselwa kwememori yesistimu, ukuhambisana kwenqolobane namanye amakhono omprosesa.
Lokhu kuhlangana kwesistimu futhi kunciphisa inkimbinkimbi yesofthiwe ehilelekile ekugcineni ukuhambisana kwesofthiwe ngaphakathi komshayeli ngamunye we-OS.
Isilawuli sokuphazamisa esijwayelekile (GIC)
Isebenzisa isilawuli esiphazamisayo esimisiwe nesakhiwe, i-GIC ihlinzeka ngendlela ecebile neguquguqukayo yokuxhumana phakathi kwamaphrosesa kanye nomzila kanye nokubekwa phambili kokuphazamiseka kwesistimu.
Isekela iziphazamiso ezizimele ezingafika kwezingu-192, ngaphansi kokulawulwa kwesofthiwe, izingxenyekazi zekhompuyutha ezibekwe kuqala, futhi zihanjiswe phakathi kwesistimu yokusebenza nesendlalelo sokuphatha isofthiwe ye-TrustZone.
Lokhu kuvumelana nezimo komzila nokusekelwa kokubonwa kokuphazamiseka ohlelweni lokusebenza, kunikeza esinye sezici ezibalulekile ezidingekayo ukuze kuthuthukiswe amandla esixazululo kusetshenziswa i-hypervisor.

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3.2
3.2.1
3.2.2

Izinkumbulo
I-SDRAM yangaphandle
Amadivayisi we-STM32MP133C/F ashumeka isilawuli se-SDRAM yangaphandle esisekela lokhu okulandelayo: · LPDDR2 noma LPDDR3, 16-bit idatha, kufika ku-1 Gbyte, kufika ku-533 MHz iwashi · DDR3 noma DDR3L, idatha engu-16-bit, kufika ku-1 Gbyte, kufika ku-533 MHz
I-SRAM eshumekiwe
Isici sawo wonke amadivayisi: · I-SYSRAM: 128 Kbytes (enendawo evikelekile yosayizi ohlelekayo) · AHB SRAM: 32 Kbytes (ivikelekile) · BKPSRAM (isipele se-SRAM): 8 Kbytes
Okuqukethwe kule ndawo kuvikelwe ekufinyeleleni kokubhala okungafuneki okungenzeka, futhi kungagcinwa kumodi yokulinda noma ye-VBAT. I-BKPSRAM ingachazwa (ku-ETZPC) njengefinyeleleka ngesofthiwe evikelekile kuphela.

3.3

I-DDR3/DDR3L/LPDDR2/LPDDR3 isilawuli (DDRCTRL)

I-DDRCTRL ehlanganiswe ne-DDRPHYC inikeza isisombululo esiphelele senkumbulo yesistimu engaphansi yememori ye-DDR. · I-interface eyodwa yamachweba angu-64-bit AMBA 4 AXI (XPI) · Iwashi le-AXI elihambisana nesilawuli · Injini ye-DDR memory cypher (DDRMCE) efaka i-AES-128 DDR ibhala phansi
ukubethela/funda ukususa ukubethela. · Amazinga asekelwe:
Ukucaciswa kwe-JEDEC DDR3 SDRAM, i-JESD79-3E ye-DDR3/3L ene-interface engu-16-bit
Ukucaciswa kwe-JEDEC LPDDR2 SDRAM, i-JESD209-2E ye-LPDDR2 ene-interface eyi-16-bit
Ukucaciswa kwe-JEDEC LPDDR3 SDRAM, i-JESD209-3B ye-LPDDR3 ene-interface eyi-16-bit
· Isihleli esithuthukisiwe kanye nejeneretha yomyalo we-SDRAM · Ububanzi bedatha obuhlelekayo obuhlelekayo (i-16-bit) noma ububanzi bedatha obuyingxenye (8-bit) · Ukusekelwa kwe-QoS okuthuthukisiwe okunezigaba ezintathu zethrafikhi ekufundeni kanye namakilasi omgwaqo amabili ngokubhala · Izinketho zokugwema indlala yethrafikhi esezingeni eliphansi · Ukuhambisana okuqinisekisiwe kokubhala-ngemuva kokufunda (WAR) nokufunda-ngemuva kokubhala (RAW)
Izimbobo ze-AXI · Usekelo oluhlelekayo lwezinketho zobude obuqhumayo (4, 8, 16) · Bhala inhlanganisela ukuze uvumele ukubhala okuningi ekhelini elifanayo ukuze kuhlanganiswe
ukubhala okukodwa · Ukumisa izinga elilodwa

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· Ukusekelwa kokungena kwamandla phansi kwe-SDRAM okuzenzakalelayo nokuphuma okubangelwa ukuntuleka kokufika kokwenziwe ngesikhathi esihlelekayo
· Ukusekelwa kokuma kwewashi okuzenzakalelayo (LPDDR2/3) ukungena nokuphuma okubangelwa ukuntuleka kokufika kokwenziwe
· Ukusekelwa kokusebenza kwemodi yamandla aphansi okuzenzakalelayo okubangelwa ukuntuleka kokufika kokwenziwe ngesikhathi sokuhleleka nge-hardware esibonakalayo samandla aphansi
· Inqubomgomo yokupheqa ehlelekayo · Ukusekelwa kokuzenzakalela noma ngaphansi kokulawula isoftware ukuzivuselela nokuphuma · Usekelo lokungena nokuphuma kwamandla ajulile ngaphansi kokulawulwa kwesoftware (LPDDR2 kanye
LPDDR3) · Ukusekelwa kwezibuyekezo zerejista yemodi ye-SDRAM ecacile ngaphansi kokulawulwa kwesofthiwe · Ingqondo yemephu yekheli eguquguqukayo ukuze kuvunyelwe uhlelo lokusebenza ukumepha okuqondile komugqa, ikholomu,
amabhithi ebhange · Izinketho zokulawula ukuvuselela ezikhetheke umsebenzisi · Ibhulokhi ehambisana ne-DDRPERFM ukusiza ukuqapha ukusebenza nokushuna
I-DDRCTRL ne-DDRPHYC ingachazwa (ku-ETZPC) njengokufinyeleleka ngesofthiwe evikelekile kuphela.
Izici eziyinhloko ze-DDRMCE (i-DDR memory cypher engine) zibalwe ngezansi: · I-AXI system bus master/slave interfaces (64-bit) · Ukubethela emgqeni (okubhalwayo) kanye nokukhishwa kwemfihlo (kokufundwa), ngokusekelwe ku-firewall eshunyekiwe.
ukuhlela · Imodi yokubethela emibili isifunda ngasinye (isifunda esisodwa esiphezulu): akukho ukubethela (imodi yokudlula),
vimba imodi ye-cipher · Ukuqala nokuphela kwezifunda ezichazwe ngobumbudumbudu obungu-64-Kbyte · Ukuhlunga okuzenzakalelayo (isifunda 0): noma yikuphi ukufinyelela kunikezwa · Ukuhlunga ukufinyelela kwesifunda: akukho
I-block cipher esekelwe: Imodi yokuhlanganisa esekelwe ye-AES · Imodi yokuvimba ene-AES cipher iyahambisana nemodi ye-ECB ecaciswe ekushicilelweni kwe-NIST FIPS 197 standard encryption standard (AES), nomsebenzi wokutholwa kokhiye ohlotshaniswayo osuselwe ku-algorithm ye-Keccak-400 eshicilelwe ku-https://keccak.team webindawo. · Isethi eyodwa yamarejista okhiye abakhulu ababhala kuphela nabakhiyekayo · Imbobo yokumisa ye-AHB, ukwazi okukhethekile

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3.4

Isilawuli sesikhala sekheli le-TrustZone le-DDR (TZC)

I-TZC isetshenziselwa ukuhlunga ukufinyelela kokufunda/ukubhala kusilawuli se-DDR ngokwamalungelo e-TrustZone futhi ngokusho kwenkosi engavikelekile (i-NSAID) ezindaweni ezingafika kweziyisishiyagalolunye ezihlelekayo: · Ukumiswa okusekelwa isofthiwe ethembekile kuphela · Iyunithi yesihlungi esisodwa · Izifunda eziyisishiyagalolunye:
Isifunda esingu-0 sihlala sinikwe amandla futhi sifaka lonke uhla lwamakheli. Izifunda 1 kuya ku-8 zinesisekelo esihlelekayo-/ikheli lokugcina futhi zingabelwa
noma yisiphi isihlungi esisodwa noma zombili. · Izimvume zokufinyelela ezivikelekile nezingavikelekile ezihlelwe isifunda ngasinye · Ukufinyelela okungavikelekile okuhlungwa ngokwe-NSAID · Izifunda ezilawulwa ngesihlungi esifanayo akufanele zidlulelane · Izindlela ezihlulekayo ezinephutha kanye/noma ziphazamise · Amandla okwamukela = 256 · Ingqondo yomgcini wesango ukuze uvule futhi uvale isihlungi ngasinye · Ukufinyelela okucatshangelwayo

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3.5

Izindlela zebhuthi

Ekuqaleni, umthombo wokuqalisa osetshenziswa i-ROM yokuqalisa yangaphakathi ukhethwa iphinikhodi ye-BOOT namabhayithi e-OTP.

Ithebula 2. Izindlela zokuqalisa

BOOT2 BOOT1 BOOT0 Imodi yokuqalisa yokuqala

Amazwana

Linda uxhumano olungenayo:

I-UART ne-USB(1)

USART3/6 kanye ne-UART4/5/7/8 kumaphini azenzakalelayo

Idivayisi ye-USB enesivinini esikhulu kumaphinikhodi we-OTG_HS_DP/DM(2)

1 I-Serial NOR flash(3) I-serial NOR flash ku-QUADSPI(5)

I-e·MMC(3)

I-e·MMC ku-SDMMC2 (okuzenzakalelayo)(5)(6)

I-NAND flash(3)

I-SLC NAND flash ku-FMC

I-Development boot (ayikho i-flash memory boot)

Isetshenziselwa ukuthola ukufinyelela kokususa iphutha ngaphandle kokuqalisa kwimemori ye-flash(4)

Ikhadi le-SD(3)

Ikhadi le-SD ku-SDMMC1 (okuzenzakalelayo)(5)(6)

Linda uxhumano olungenayo:

0 UART ne-USB(1)(3) USART3/6 kanye ne-UART4/5/7/8 kumaphini azenzakalelayo

Idivayisi ye-USB enesivinini esikhulu kumaphinikhodi we-OTG_HS_DP/DM(2)

1 I-Serial NAND flash(3) I-serial NAND flash ku-QUADSPI(5)

1. Ingakhutshazwa izilungiselelo ze-OTP. 2. I-USB idinga iwashi/ikristalu le-HSE (bona i-AN5474 ukuze uthole amaza asekelwayo anezilungiselelo ze-OTP nangaphandle kwazo). 3. Umthombo wokuqalisa ungashintshwa izilungiselelo ze-OTP (ngokwesiboneloampqala kabusha ekhadini le-SD, bese kuba yi-e·MMC enezilungiselelo ze-OTP). 4. I-Cortex®-A7 core in infinite loop toggling PA13. 5. Izikhonkwane ezizenzakalelayo zingashintshwa yi-OTP. 6. Kungenjalo, esinye isixhumi esibonakalayo se-SDMMC kunalokhu okumisiwe singakhethwa yi-OTP.

Nakuba ukuqalisa kwezinga eliphansi kwenziwa kusetshenziswa amawashi angaphakathi, i-ST inikeze amaphakheji esofthiwe kanye nezindawo ezinkulu zangaphandle ezifana ne-DDR, i-USB (kodwa engagcini lapho) zidinga ikristalu noma i-oscillator yangaphandle ukuze ixhunywe kumaphini we-HSE.
Bona i-RM0475 “STM32MP13xx advanced Arm®-based 32-bit MPUs” noma AN5474 “Ukuqalisa ngokuthuthukiswa kwehadiwe yemigqa ye-STM32MP13xx” ukuze uthole izithiyo nezincomo mayelana noxhumo lwamaphini we-HSE namafrikhwensi asekelwe.

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3.6

Ukuphathwa kokunikezwa kwamandla

3.6.1
Isexwayiso:

Uhlelo lokuphakelwa kukagesi
· I-VDD iwumthombo oyinhloko wama-I/O futhi ingxenye yangaphakathi igcinwa inamandla ngesikhathi semodi yokulinda. Ivolumu ewusizotagUbubanzi be-e bungu-1.71 V ukuya ku-3.6 V (1.8 V, 2.5 V, 3.0 V noma 3.3 V uhlobo.)
I-VDD_PLL ne-VDD_ANA kumelwe zixhunywe inkanyezi ku-VDD. I-VDDCPU iyi-Cortex-A7 CPU ezinikele voltagi-e supply, inani layo elincike ku-
imvamisa ye-CPU oyifunayo. I-1.22 V ukuya ku-1.38 V kumodi yokugijima. I-VDD kufanele ibe khona ngaphambi kwe-VDDCPU. · I-VDDCORE iyivolumu eyinhloko yedijithalitage futhi ivamise ukuvala shaqa ngesikhathi semodi yokulinda. VoltagUbubanzi be-e bungu-1.21 V ukuya ku-1.29 V kumodi yokuqalisa. I-VDD kufanele ibe khona ngaphambi kwe-VDDCORE. · Iphinikhodi ye-VBAT ingaxhunywa ebhethrini langaphandle (1.6 V <VBAT <3.6 V). Uma lingekho ibhethri langaphandle elisetshenziswayo, le phinikhodi kufanele ixhunywe ku-VDD. · I-VDDA iyi-analog (ADC/VREF), i-supply voltage (1.62 V kuya ku-3.6 V). Ukusebenzisa i-VREF+ yangaphakathi kudinga i-VDDA elingana noma ephakeme kune-VREF+ + 0.3 V. · Iphinikhodi ye-VDDA1V8_REG iwukuphuma kwesilawuli sangaphakathi, esixhunywe ngaphakathi ku-USB PHY ne-USB PLL. Isilawuli sangaphakathi se-VDDA1V8_REG sinikwe amandla ngokuzenzakalela futhi singalawulwa isofthiwe. Ihlala ivaliwe ngesikhathi semodi yokulinda.
Iphinikhodi ethi BYPASS_REG1V8 akumele neze ishiywe intanta. Kufanele ixhunywe ku-VSS noma ku-VDD ukuze uvule noma uvale ivolumutage umlawuli. Uma i-VDD = 1.8 V, BYPASS_REG1V8 kufanele isethwe. · Iphinikhodi ye-VDDA1V1_REG iwukuphuma kwesilawuli sangaphakathi, esixhunywe ngaphakathi ku-USB PHY. Isilawuli sangaphakathi se-VDDA1V1_REG sinikwa amandla ngokuzenzakalela futhi singalawulwa isofthiwe. Ihlala ivaliwe ngesikhathi semodi yokulinda.
· I-VDD3V3_USBHS iyisiphakeli se-USB esinesivinini esikhulu. Voltagububanzi buyi-3.07 V ukuya ku-3.6 V.
I-VDD3V3_USBHS akumele ibe khona ngaphandle uma i-VDDA1V8_REG ikhona, ngaphandle kwalokho kungase kwenzeke umonakalo unomphela ku-STM32MP133C/F. Lokhu kufanele kuqinisekiswe nge-oda lezinga le-PMIC noma ngengxenye yangaphandle uma kusetshenziswa ingxenye ehlukene yokunikezwa kwamandla.
· I-VDDSD1 ne-VDDSD2 ngokulandelana yi-SDMMC1 kanye ne-SDMMC2 yekhadi le-SD lamandla okunikezwa kwamandla okusekela imodi yesivinini esiphezulu.
· I-VDDQ_DDR iyisiphakeli se-DDR IO. I-1.425 V ukuya ku-1.575 V yokuhlanganisa izinkumbulo ze-DDR3 (uhlobo lwe-1.5 V.)
I-1.283 V ukuya ku-1.45 V yokuhlanganisa izinkumbulo ze-DDR3L (uhlobo lwe-1.35 V.)
I-1.14 V ukuya ku-1.3 V yokuhlanganisa izinkumbulo ze-LPDDR2 noma ze-LPDDR3 (uhlobo lwe-1.2 V.)
Phakathi nezigaba zokukhuphula nokwehlisa amandla, lezi zidingo ezilandelayo zokulandelana kwamandla kufanele zihlonishwe:
· Uma i-VDD ingaphansi kuka-1 V, ezinye izinto zikagesi (VDDCORE, VDDCPU, VDDSD1, VDDSD2, VDDA, VDDA1V8_REG, VDDA1V1_REG, VDD3V3_USBHS, VDDQ_DDR) kufanele zihlale ngaphansi kwe-VDD + 300 mV.
· Uma i-VDD ingaphezulu kwe-1 V, zonke izinsiza zikagesi zizimele.
Phakathi nesigaba sokwehlisa amandla, i-VDD ingaba ngaphansi kwezinye izinsiza kuphela uma amandla anikezwe i-STM32MP133C/F ehlala engaphansi kuka-1 mJ. Lokhu kuvumela ama-decoupling capacitor angaphandle ukuthi akhishwe ngama-constants esikhathi ahlukene phakathi nesigaba sesikhashana sokwehla kwamandla.

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V 3.6
VBOR0 1

Umfanekiso 2. Ukulandelana kwamandla phezulu/phansi

I-STM32MP133C/F

I-VDDX(1) VDD

3.6.2
Qaphela: 26/219

0.3

Ukuvula amandla

Imodi yokusebenza

Amandla-phansi

isikhathi

Indawo yokunikezela engavumelekile

I-VDDX < VDD + 300 mV

I-VDDX izimele ku-VDD

I-MSv47490V1

1. I-VDDX isho noma yikuphi ukunikezwa kwamandla phakathi kwe-VDDCORE, VDDCPU, VDDSD1, VDDSD2, VDDA, VDDA1V8_REG, VDDA1V1_REG, VDD3V3_USBHS, VDDQ_DDR.

Umphathi wokuphakela amandla

Amadivayisi anomjikelezo ohlanganisiwe wokusetha kabusha amandla (i-POR)/ ukusetha kabusha amandla phansi (i-PDR) okuhambisana nokusethwa kabusha kwe-Browout (BOR):
· Ukusetha kabusha amandla (POR)
Umphathi we-POR uqapha ukunikezwa kwamandla kwe-VDD futhi akuqhathanise nomkhawulo ogxilile. Amadivayisi ahlala akumodi yokusetha kabusha uma i-VDD ingaphansi kwalo mkhawulo, · Ukusetha kabusha amandla phansi (PDR)
Umphathi we-PDR uqapha ukunikezwa kwamandla e-VDD. Ukusetha kabusha kukhiqizwa lapho i-VDD yehla ngaphansi komkhawulo ongashintshi.
· Ukusetha kabusha i-Brown (BOR)
Umphathi we-BOR uqapha ukunikezwa kwamandla e-VDD. Amathreshold amathathu e-BOR (kusuka ku-2.1 kuya ku-2.7 V) angacushwa ngenketho yamabhayithi. Ukusetha kabusha kukhiqizwa lapho i-VDD yehla ngaphansi kwalo mkhawulo.
· Ukusetha kabusha amandla okuvula i-VDDCORE (POR_VDDCORE) Umphathi we-POR_VDDCORE uqapha ukunikezwa kwamandla kwe-VDDCORE futhi akuqhathanise nomkhawulo ongaguquki. Isizinda se-VDDCORE sihlala sikumodi yokusetha kabusha uma i-VDDCORE ingaphansi kwalo mkhawulo.
· Ukusetha kabusha amandla phansi kwe-VDDCORE (PDR_VDDCORE) Umphathi we-PDR_VDDCORE uqapha ukunikezwa kwamandla kwe-VDDCORE. Ukusetha kabusha isizinda se-VDDCORE kukhiqizwa lapho i-VDDCORE yehla ngaphansi komkhawulo omisiwe.
· Ukusetha kabusha amandla e-VDDCPU (POR_VDDCPU) Umphathi we-POR_VDDCPU uqapha ukunikezwa kwamandla kwe-VDDCPU futhi akuqhathanise nomkhawulo ogxilile. Isizinda se-VDDCPU sihlala sikumodi yokusetha kabusha uma i-VDDCORE ingaphansi kwalo mkhawulo.
Iphinikhodi ye-PDR_ON ibekelwe izivivinyo zokukhiqiza ze-STMicroelectronics futhi kufanele ixhunywe ku-VDD njalo kuhlelo lokusebenza.

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3.7

Isu lamandla aphansi

Kunezindlela ezimbalwa zokunciphisa ukusetshenziswa kwamandla ku-STM32MP133C/F: · Ukunciphisa ukusetshenziswa kwamandla ashukumisayo ngokunciphisa amawashi e-CPU kanye/noma
amawashi e-matrix yebhasi kanye/noma alawula amawashi asendaweni eyodwa. · Londoloza ukusetshenziswa kwamandla lapho i-CPU I-IDLE, ngokukhetha phakathi kokutholakala okuphansi-
izindlela zamandla ngokuya ngezidingo zohlelo lokusebenza lomsebenzisi. Lokhu kuvumela ukuvumelana okuhle kakhulu phakathi kwesikhathi esifushane sokuqalisa, ukusetshenziswa kwamandla aphansi, kanye nemithombo etholakalayo yokuvuka, ukuthi kuzuzwe. Sebenzisa i-DVFS (dynamic voltage kanye ne-frequency scaling) amaphoyinti wokusebenza alawula ngokuqondile ifrikhwensi yewashi le-CPU kanye nokunikezwayo kokuphumayo kwe-VDDCPU.
Amamodi okusebenza avumela ukulawulwa kokusatshalaliswa kwewashi ezingxenyeni ezihlukene zesistimu namandla esistimu. Imodi yokusebenza yesistimu iqhutshwa i-MPU sub-system.
Amamodi asebenzisa amandla aphansi wesistimu ye-MPU ahlelwe ngezansi: · Lala: Amawashi e-CPU amisiwe futhi i(ama)washi ejikelezayo isebenza njenge
ngaphambilini isethwe ku-RCC (setha kabusha nesilawuli sewashi). · CStop: I(ama)washi ye-CPU iyamiswa. · CStandby: VDDCPU IVALIWE
Amamodi okulala kanye ne-CStop anamandla aphansi afakwa yi-CPU lapho isebenzisa imiyalelo ye-WFI (linda ukuphazamisa) noma ye-WFE (linda umcimbi).
Izindlela zokusebenza zesistimu ezitholakalayo yilezi ezilandelayo: · Qalisa (isistimu ekusebenzeni kwayo ngokugcwele, i-VDDCORE, i-VDDCPU namawashi IVULIWE) · Ima (iwashi VALIWE) · I-LP-Stop (iwashi VALIWE) · LPLV-Stop (amawashi VALIWE, i-VDDCORE ne-VDDCPU izinga lokuphakela lingase lehliswe) · LPDDCPUstop clocked,VDD-Stop OFF2,VDD-StopXNUMX · Okubekwe eceleni (VDDCPU, VDDCORE, namawashi VALIWE)

Ithebula 3. Imodi yamandla yesistimu ngokumelene ne-CPU

Imodi yamandla esistimu

CPU

Imodi yokuqalisa

CRun noma Lala

Imodi yokumisa Imodi ye-LP-Stop Imodi ye-LPLV-Stop Imodi ye-LPLV-Stop2
Imodi yokulinda

CStop noma CStandby CStandby

3.8

Setha kabusha nesilawuli sewashi (RCC)

Iwashi nesilawuli sokusetha kabusha silawula ukukhiqizwa kwawo wonke amawashi, kanye nesango lewashi, nokulawulwa kwesistimu nokusetha kabusha kwe-peripheral.I-RCC inikeza ukuguquguquka okuphezulu ekukhethweni kwemithombo yewashi futhi ivumela ukusetshenziswa kwezilinganiso zewashi ukuthuthukisa ukusetshenziswa kwamandla. Ngaphezu kwalokho, kwamanye ama-peripherals okuxhumana akwazi ukusebenza nawo

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3.8.1 3.8.2

izizinda ezimbili ezihlukene zewashi (kungaba iwashi lesixhumi esibonakalayo sebhasi noma iwashi le-kernel peripheral), imvamisa yesistimu ingashintshwa ngaphandle kokuguqula i-baudrate.
Ukuphathwa kwewashi
Amadivayisi ashumeka ama-oscillator amane angaphakathi, ama-oscillator amabili ane-crystal yangaphandle noma i-resonator, ama-oscillator amathathu angaphakathi anesikhathi sokuqalisa ngokushesha kanye nama-PLL amane.
I-RCC ithola okokufaka komthombo wewashi okulandelayo: · Ama-oscillator angaphakathi:
64 MHz HSI clock (1% ukunemba) 4 MHz CSI clock 32 kHz LSI iwashi · Oscillator wangaphandle: 8-48 MHz HSE clock 32.768 kHz LSE iwashi
I-RCC inikeza ama-PLL amane: · I-PLL1 enikezelwe ewashini le-CPU · I-PLL2 ihlinzeka:
amawashi e-AXI-SS (okuhlanganisa i-APB4, APB5, AHB5 kanye namabhuloho e-AHB6) esixhumi esibonakalayo se-DDR · I-PLL3 ihlinzeka: amawashi e-AHB enezingqimba eziningi kanye ne-peripheral bus matrix (okuhlanganisa i-APB1,
I-APB2, APB3, APB6, AHB1, AHB2, kanye ne-AHB4) amawashi e-kernel yama-peripherals · I-PLL4 enikezelwe ekukhiqizeni amawashi e-kernel ama-peripheral ahlukahlukene
Uhlelo luqala ewashini le-HSI. Uhlelo lokusebenza lungakwazi ukukhetha ukulungiselelwa kwewashi.
Imithombo yokusetha kabusha isistimu
Ukusetha kabusha amandla kuqalisa wonke amarejista ngaphandle kwe-debug, ingxenye ye-RCC, ingxenye ye-RTC namarejista esimo sesilawuli samandla, kanye nesizinda samandla eSipele.
Ukusetha kabusha kwesicelo kukhiqizwa kusuka komunye wemithombo elandelayo: · ukusetha kabusha kusuka ku-NRST pad · ukusetha kabusha kusuka ku-POR kanye nesignali ye-PDR (ngokuvamile okubizwa ngokuthi ukusetha kabusha amandla) · ukusetha kabusha kusuka ku-BOR (ngokuvamile okubizwa ngokuthi i-brownout) · ukusetha kabusha kusuka ku-watchdog ezimele 1 · ukusetha kabusha kusuka kumlindi ozimele 2 · uhlelo lwesofthiwe lusethwa kabusha kusukela kusistimu ye-7 ye-corte yezokuphepha · I-CPU yezokuphepha isici sicushiwe
Ukusetha kabusha isistimu kukhiqizwa kusuka komunye wemithombo elandelayo: · ukusetha kabusha uhlelo lokusebenza · ukusetha kabusha kusuka kusignali ye-POR_VDDCORE · ukuphuma kumodi yokulinda ukuya kumodi yokusebenzisa.

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Ukusetha kabusha i-MPU processor kukhiqizwa kusuka komunye wemithombo elandelayo: · ukusetha kabusha isistimu · njalo uma i-MPU iphuma ku-CStandby · ukusetha kabusha kwesofthiwe ye-MPU ku-Cortex-A7 (CPU)

3.9

Okokufaka/okuphumayo kwenhloso ejwayelekile (GPIOs)

Iphini ngalinye le-GPIO lingacushwa nge-software njengokuphumayo (ukudonsa-donsa noma ukuvula i-drain, noma ngaphandle kokudonsela phezulu noma ukudonsela phansi), njengokufakwayo (noma ngaphandle kokudonsela phezulu noma ukudonsa phansi) noma njengokunye ukusebenza kwe-peripheral. Iningi lamaphinikhodi e-GPIO kwabelwanwa ngawo neminye imisebenzi yedijithali noma ye-analog. Wonke ama-GPIO anamandla amanje futhi anokukhethwa kwejubane ukuze alawule kangcono umsindo wangaphakathi, ukusetshenziswa kwamandla kanye nokuphuma kukagesi.
Ngemva kokusetha kabusha, wonke ama-GPIO akumodi ye-analog ukuze anciphise ukusetshenziswa kwamandla.
Ukucushwa kwe-I/O kungakhiywa uma kudingeka ngokulandela ukulandelana okuthile ukuze kugwenywe ukubhala okungamanga kumarejista e-I/Os.
Wonke amaphinikhodi e-GPIO angasethwa ngawodwa njengavikelekile, okusho ukuthi isofthiwe ifinyelela kulawa ma-GPIO kanye nama-peripheral ahlotshaniswayo achazwa ngokuthi avikelekile akhawulelwe ekuvikeleni isofthiwe esebenza ku-CPU.

3.10
Qaphela:

Isilawuli sokuvikela i-TrustZone (ETZPC)
I-ETZPC isetshenziselwa ukulungisa ukuphepha kwe-TrustZone kwabaphathi bamabhasi nezigqila ezinezimfanelo zokuphepha ezihlelekayo (izinsiza ezivikelekayo). Isibonelo: · Ku-chip SYSRAM usayizi wesifunda ovikelekile ungahlelwa. · Ama-peripherals e-AHB kanye ne-APB angenziwa avikeleke noma angavikelekile. · I-AHB SRAM ingenziwa ivikeleke noma ingavikelekile.
Ngokuzenzakalela, ama-SYSRAM, ama-AHB SRAM kanye nama-peripherals avikelekile asethelwe ukuze avikeleke ukufinyelela kuphela, ngakho-ke, awafinyeleleki ongcweti abangavikelekile njenge-DMA1/DMA2.

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3.11

I-matrix yokuxhumana kwebhasi
Amadivayisi afaka i-matrix yebhasi ye-AXI, i-matrix yebhasi ye-AHB eyodwa kanye namabhuloho amabhasi avumela abaphathi bamabhasi ukuthi baxhunywe nezigqila zamabhasi (bona isithombe esingezansi, amachashazi amelela ukuxhumana okunikwe amandla okuyinhloko/kwenceku).
Umfanekiso 3. STM32MP133C/F ibhasi matrix

I-MDMA

I-SDMMC2

I-SDMMC1

I-DBG Kusuka ku-MLAHB xhuma i-USBH

CPU

I-ETH1 ETH2

128-bit

I-AXIM

M1 M2

M11

S1 S2 S3 S4 S5 S6 S7 S8 S9

I-AXIMC yesigqila esizenzakalelayo

I-NIC-400 AXI 64 bits 266 MHz – amakhosi ayi-10 / izigqila eziyi-10

Kusuka ku-AXIM interconnect DMA1 DMA2 USBO DMA3

M1 M2

M3 M4

M6 M7

I-S4 S5 Interconnect AHB 32 bits 209 MHz – 8 masters / 6 izinceku

I-DDRCTRL 533 MHz AHB ibhuloho ukuya ku-AHB6 Ku-MLAHB xhuma i-FMC/NAND QUADSPI SYSRAM 128 KB ROM 128 KB AHB ibhuloho ukuya ku-AHB5 APB ibhuloho ukuya ku-APB5 APB ibhuloho ukuya ku-DBG APB
I-AXI 64 imbobo yesigqila evumelanayo i-AXI 64 imbobo yesigqila evumelanisiwe i-AXI 64 imbobo yesigqila evumelanayo AXI 64 imbobo yesigqila evumelanayo AHB 32 imbobo eyinhloko evumelanayo AHB 32 imbobo yesigqila evumelanayo AHB 32 imbobo yesigqila evumelanayo AHB 32 imbobo yesigqila evumelanayo
Ibhuloho eliya ku-AHB2 SRAM1 SRAM2 SRAM3 Ku-AXIM xhuma Ibhuloho ku-AHB4
I-MSv67511V2

I-MLAHB

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3.12

Izilawuli ze-DMA
Amadivayisi afaka amamojula alandelayo e-DMA ukuze ethule umsebenzi we-CPU: · inkumbulo eqondile yokufinyelela (MDMA)
I-MDMA isilawuli se-DMA esinesivinini esikhulu, esiphethe zonke izinhlobo zokudluliswa kwenkumbulo (i-peripheral-to-memory, inkumbulo-to-memory, inkumbulo-to-peripheral), ngaphandle kwanoma yisiphi isenzo se-CPU. Ine-interface ye-AXI eyinhloko. I-MDMA iyakwazi ukusebenzisana nezinye izilawuli ze-DMA ukuze inwebe amandla ajwayelekile e-DMA, noma ingaphatha izicelo ze-DMA ze-peripheral ngokuqondile. Ishaneli ngayinye yama-32 ingakwazi ukudlulisa amabhulokhi, ukudluliselwa kwamabhulokhi okuphindaphindiwe kanye nokudluliselwa kohlu okuxhumene. I-MDMA ingasethwa ukuthi yenze ukudluliselwa okuphephile kuzinkumbulo ezivikelekile. · Izilawuli ezintathu ze-DMA (ezingavikelekile i-DMA1 ne-DMA2, kanye ne-DMA3 evikelekile) Isilawuli ngasinye sine-AHB enezimbobo ezimbili, enani lamashaneli angu-16 angavikelekile neziyisishiyagalombili avikelekile e-DMA ukuze enze ukudluliselwa kwebhulokhi okusekelwe ku-FIFO.
Amayunithi amabili e-DMAMUX aphindaphindeka futhi ahambise izicelo ze-DMA ze-peripheral kuya kuzilawuli ezintathu ze-DMA, ezinokuguquguquka okuphezulu, okwandisa inani lezicelo ze-DMA ezisebenza kanyekanye, kanye nokukhiqiza izicelo ze-DMA ezivela kuzibangeli zokuphuma kwe-peripheral noma imicimbi ye-DMA.
I-DMAMUX1 ifaka izicelo ze-DMA ezivela ezindaweni ezingavikelekile eziya eziteshini ze-DMA1 ne-DMA2. I-DMAMUX2 icela i-DMA kumamephu avikelekile eziteshini ze-DMA3.

3.13

Ukuphazamiseka okunwetshiwe nesilawuli somcimbi (EXTI)
Ukuphazamiseka okunwetshiwe nesilawuli somcimbi (i-EXTI) siphatha i-CPU kanye nokuvuka kwesistimu ngokokufaka komcimbi okulungisekayo nokuqondile. I-EXTI inikeza izicelo zokuvuka kusilawuli samandla, futhi ikhiqize isicelo sokuphazamiseka ku-GIC, kanye nemicimbi kokokufaka komcimbi we-CPU.
Izicelo zokuvuka ze-EXTI zivumela isistimu ukuthi ivuswe kumodi yokumisa, kanye ne-CPU ukuthi ivuswe kusukela kumamodi e-CStop ne-CStandby.
Isicelo sokuphazamisa nokwenza isicelo somcimbi nakho kungasetshenziswa ku-Run mode.
I-EXTI ihlanganisa nokukhethwa kwe-EXTI IOport.
Ukuphazamiseka ngakunye noma umcimbi ungasethwa njengovikelekile ukuze ukhawulele ukufinyelela kusofthiwe evikelekile kuphela.

3.14

Iyunithi yokubalwa kokuhlolwa kokuphindwaphindwa kwe-cyclic (CRC)
Iyunithi yokubala ye-CRC (cyclic redundancy check) isetshenziselwa ukuthola ikhodi ye-CRC kusetshenziswa i-polynomial ehlelekayo.
Phakathi kwezinye izinhlelo zokusebenza, amasu asekelwe ku-CRC asetshenziselwa ukuqinisekisa ukudluliswa kwedatha noma ubuqotho besitoreji. Ngobubanzi bezinga le-EN/IEC 60335-1, banikeza indlela yokuqinisekisa ubuqotho bememori ye-flash. Iyunithi yokubala ye-CRC isiza ukwenza ikhompuyutha isiginesha yesofthiwe ngesikhathi sokusebenza, ukuze iqhathaniswe nesiginesha yereferensi ekhiqizwe ngesikhathi sesixhumanisi futhi igcinwe endaweni ethile yenkumbulo.

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3.15

I-Flexible memory controller (FMC)
Izici eziyinhloko zesilawuli se-FMC yilezi ezilandelayo: · Isixhumi esibonakalayo esinamadivayisi afakwe imephu yenkumbulo engashintshi okuhlanganisa:
NOR inkumbulo ye-flash Inkumbulo yokufinyelela engahleliwe emile noma i-pseudo-static (i-SRAM, i-PSRAM) Imemori ye-flash ye-NAND ene-4-bit/8-bit BCH hardware ECC · 8-,16-bit ububanzi bebhasi ledatha · Ukulawula okuzimele kokukhetha i-chip kumemori yebhange ngalinye · Ukucushwa okuzimele kwebhange ngalinye lememori · Bhala FIFO
Amarejista okucushwa kwe-FMC angenziwa avikeleke.

3.16

I-Dual Quad-SPI memory interface (QUADSPI)
I-QUADSPI iyisixhumi esibonakalayo sokuxhumana esikhethekile esiqondise izinkumbulo ezikhanyayo ze-SPI eyodwa, ezimbili noma ezine-quad. Ingasebenza kunoma iyiphi kulezi zindlela ezintathu ezilandelayo: · Imodi engaqondile: yonke imisebenzi yenziwa kusetshenziswa amarejista e-QUADSPI. · Imodi yesimo sokuvota: irejista yesimo sememori ye-flash ifundwa ngezikhathi ezithile futhi
ukuphazamiseka kungenziwa uma kulungiselelwa ifulegi. · Imodi ye-Memory-mapped: imemori yangaphandle ye-flash imephuwe endaweni yekheli
futhi kubonakala ngohlelo njengokungathi inkumbulo yangaphakathi.
Kokubili ukuphuma nomthamo kungandiswa ngokuphindwe kabili kusetshenziswa imodi ye-double-flash, lapho izinkumbulo ezimbili ze-Quad-SPI flash zifinyelelwa ngesikhathi esisodwa.
I-QUADSPI ihlanganiswe ne-block block (i-DLYBQS) evumela ukusekelwa kwefrikhwensi yedatha yangaphandle engaphezu kuka-100 MHz.
Amarejista okucushwa kwe-QUADSPI angavikeleka, kanye nokuvimbela kwawo ukubambezeleka.

3.17

Iziguquli ze-Analog-to-digital (ADC1, ADC2)
Amadivayisi ashumeka iziguquli ezimbili ze-analog-to-digital, ukulungiswa kwazo kungalungiselelwa ku-12-, 10-, 8- noma 6-bit. I-ADC ngayinye yabelana ngamashaneli angaphandle afinyelela kwangu-18, yenza ukuguqulwa ngemodi yokushutha okukodwa noma yokuskena. Kumodi yokuskena, ukuguqulwa okuzenzakalelayo kwenziwa eqenjini elikhethiwe lokufakwayo kwe-analog.
Womabili ama-ADC anokuxhumana kwamabhasi okuvikelekile.
I-ADC ngayinye inganikezwa isilawuli se-DMA, ngaleyo ndlela ivumele ukudluliswa okuzenzakalelayo kwamavelu aguqulelwe e-ADC endaweni okuyiwa kuyo ngaphandle kwanoma yisiphi isenzo sesofthiwe.
Ngaphezu kwalokho, isici se-analog watchdog singaqapha ngokunembile ivolumu eguquliwetage yeyodwa, amanye noma wonke amashaneli akhethiwe. Ukuphazamiseka kukhiqizwa uma ivolumu iguquliwetage ingaphandle kwemikhawulo ehleliwe.
Ukuze uvumelanise ukuguqulwa kwe-A/D nezibali sikhathi, ama-ADC angacushwa yinoma yiziphi izibali sikhathi ze-TIM1, TIM2, TIM3, TIM4, TIM6, TIM8, TIM15, LPTIM1, LPTIM2 ne-LPTIM3.

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3.18

Inzwa yezinga lokushisa
Amadivayisi ashumeka inzwa yezinga lokushisa ekhiqiza i-voltage (VTS) ehluka ngokulandelana nezinga lokushisa. Le nzwa yezinga lokushisa ixhumeke ngaphakathi ku-ADC2_INP12 futhi ingakala izinga lokushisa le-ambient yedivayisi ukusuka ku-40 ukuya ku-+125 °C nokunemba okungu-±2 %.
Inzwa yezinga lokushisa inomugqa omuhle, kodwa kufanele ilinganiswe ukuze kutholwe ukunemba okuhle kukonke kwesilinganiso sokushisa. Njengoba i-sensor ye-temperature offset ihluka ukusuka ku-chip kuye ku-chip ngenxa yokuhlukahluka kwenqubo, inzwa yangaphakathi yezinga lokushisa engalinganisiwe ifanele izinhlelo zokusebenza ezithola ukushintsha kwezinga lokushisa kuphela. Ukuze kuthuthukiswe ukunemba kwesilinganiso senzwa yokushisa, idivayisi ngayinye ilinganiswe njengasekuqaleni nge-ST. Idatha yokulinganiswa kwemboni yenzwa yokushisa igcinwa yi-ST endaweni ye-OTP, efinyeleleka ngemodi yokufunda kuphela.

3.19

Inzwa yezinga lokushisa ledijithali (DTS)
Amadivayisi ashumeka inzwa yezinga lokushisa eliphuma njalo. I-DTS ibala imvamisa ngokusekelwe ku-LSE noma i-PCLK ukuze inikeze ulwazi lwezinga lokushisa.
Imisebenzi elandelayo iyasekelwa: · phazamisa ukukhiqiza ngezinga lokushisa · ukukhiqizwa kwesignali ye-wakeup ngomkhawulo wezinga lokushisa

3.20
Qaphela:

Ukusebenza kwe-VBAT
Isizinda samandla se-VBAT siqukethe i-RTC, amarejista ayisipele kanye ne-SRAM eyisipele.
Ukuze kuthuthukiswe ubude bebhethri, lesi sizinda samandla sihlinzekwa yi-VDD uma sitholakala noma ngevolumu.tagisetshenziswe kuphinikhodi ye-VBAT (lapho ukunikezwa kwe-VDD kungekho). Amandla e-VBAT ayashintshwa lapho i-PDR ithola ukuthi i-VDD yehle ngaphansi kwezinga le-PDR.
IVoltage kuphinikhodi ye-VBAT ingahlinzekwa ngebhethri yangaphandle, i-supercapacitor noma i-VDD ngokuqondile. Esimeni sakamuva, imodi ye-VBAT ayisebenzi.
Ukusebenza kwe-VBAT kwenziwa kusebenze uma i-VDD ingekho.
Ayikho kulezi zenzakalo (iziphazamiso zangaphandle, TAMP umcimbi, noma i-alamu/imicimbi ye-RTC) iyakwazi ukubuyisela ngokuqondile ukunikezwa kwe-VDD nokuphoqa idivayisi ukuthi iphume emsebenzini we-VBAT. Noma kunjalo, u-TAMP imicimbi kanye ne-alamu/imicimbi ye-RTC kungasetshenziswa ukukhiqiza isignali kumjikelezo wangaphandle (ngokuvamile i-PMIC) engabuyisela ukunikezwa kwe-VDD.

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3.21

VoltagI-e reference buffer (VREFBUF)
Amadivayisi ashumeka i-voltagi-reference buffer engasetshenziswa njenge-voltage ireferensi yama-ADC, futhi futhi njengomqulutage ireferensi yezingxenye zangaphandle ngephinikhodi ye-VREF+. I-VREFBUF ingavikeleka. I-VREFBUF yangaphakathi isekela amavolumu amanetages: · 1.65 V · 1.8 V · 2.048 V · 2.5 V Ivolumu yangaphandletagIreferensi ye-e inganikezwa ngephinikhodi ye-VREF+ uma i-VREFBUF yangaphakathi icishiwe.
Umfanekiso 4. Umqtagi-reference buffer

VREFINT

–

I-VREF+

I-VSSA

I-MSv64430V1

3.22

Isihlungi sedijithali se-sigma-delta modulator (DFSDM)
Amadivayisi ashumeka i-DFSDM eyodwa ngokusekelwa kwamamojula amabili okuhlunga edijithali kanye namashaneli amane esiriyeli wokufakwa kwangaphandle (ama-transceivers) noma ngokushintshana okokufaka okune kwangaphakathi okufanayo.
I-DFSDM ixhumanisa amamoduli angaphandle kudivayisi futhi yenza ukuhlunga ngedijithali kokusakazwa kwedatha okutholiwe. ama-modulators asetshenziselwa ukuguqula amasignali e-analog abe yi-digital-serial stream akha okokufaka kwe-DFSDM.
I-DFSDM ingabuye ixhumane namamakrofoni e-PDM (i-pulse-density modulation) futhi yenze i-PDM iye ku-PCM ukuguqulwa nokuhlunga (i-hardware isheshisiwe). I-DFSDM ihlanganisa okokufaka kokusakaza kwedatha okuzikhethela okufanayo okusuka kuma-ADC noma kusuka kumemori yedivayisi (ngokudluliselwa kwe-DMA/CPU ku-DFSDM).
Ama-transceivers e-DFSDM asekela amafomethi amaningana e-serial-interface (ukusekela amamoduli ahlukahlukene). Amamojula okuhlunga edijithali e-DFSDM enza ukucubungula kwedijithali ngokuhambisana nemingcele yokuhlunga echazwe ngumsebenzisi enokulungiswa kokugcina kwe-ADC okungafika ku-24-bit.

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I-peripheral ye-DFSDM isekela: · Amashaneli ama-digital input serial angama-multiplexed:
isixhumi esibonakalayo se-SPI esilungisekayo ukuxhuma amamoduli ahlukahlukene alungisekayo eManchester anekhodi engu-1-wire interface PDM (i-pulse-density modulation) imakrofoni yokufaka imvamisa yewashi lokufaka ubuningi obufika ku-20 MHz (10 MHz ye-Manchester coding) okukhipha iwashi kumamodulators (0 kuya ku-20 MHz) · Okunye okokufaka okuvela kumemori emine yangaphakathi yedijithali ehambisana nokulungiswa kwedatha engu-16:- phezulu kwe-DC yedatha engu-1:- up imifudlana (DMA) · Amamojula amabili esihlungi sedijithali anokucubungula isignali yedijithali elungisekayo: Isihlungi se-Sincx: ukuhleleka kwesihlungi/uhlobo (5 kuya ku-XNUMX), ngaphezuluampisilinganiso se-ling (1 kuya ku-1024) isihlanganisi: ama-oversampling isilinganiso (1 kuya ku-256) · Kufika ku-24-bit okukhiphayo ukulungiswa kwedatha, ifomethi yokukhishwayo esayiniwe · Ukulungiswa kwe-offset yedatha okuzenzakalelayo (i-offset egcinwe kurejista ngumsebenzisi) · Ukuguqulwa okuqhubekayo noma okukodwa · Ukuqala-kokuguqulwa okubangelwa: amarejista omkhawulo anikezelwe isihlungi sedijithali se-Sincx esilungisekayo (i-oda = 1 kuya ku-3,
ngaphezuluampling ratio = 1 kuya ku-32) okokufaka okuvela kudatha yokugcina yokukhipha noma kokufakwayo okukhethiwe eziteshini ze-serial zedijithali ukuqapha okuqhubekayo ngaphandle kokuguqulwa okujwayelekile · Umtshina wesiyingi esifushane ukuze uthole amanani okokufaka kwe-analog agcwele (phansi naphezulu): isibali esingafika ku-8-bit ukuze sithole u-1's noma 256 olandelanayo noma ukusakaza kwedatha yesiginali ngayinye ekusakazweni kwedatha ye-0 umcimbi we-analog watchdog noma emcimbini womtshina we-short-circuit · Umtshina oweqisayo: ukugcinwa kwamanani amancane naphezulu edatha yokugcina yokuguqulwa evuselelwe isofthiwe · Ikhono le-DMA lokufunda idatha yokugcina yokuguqulwa · Iziphazamiso: ukuphela kokuguqulwa, ukweqa, i-analog watchdog, i-short circuit, ukungabikho kwewashi lesiteshi sokufakwayo ukungabikho kwewashi le-serial ukungabikho · “Okuvamile” ukuguqulwa kungenziwa noma yikuphi ukuguqulwa kwewashi “okujwayelekile” noma “ukuguqulwa”: isikhathi noma ngisho kwimodi eqhubekayo
ngaphandle kokuba nomthelela ngesikhathi sokuguqulwa "okujovwe" "okujovwe" ukuze kube nesikhathi esinembayo kanye nokubaluleke kakhulu kokuguqulwa

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3.23

Ijeneretha yenombolo engahleliwe yeqiniso (RNG)
Amadivayisi ashumeka i-RNG eyodwa eletha izinombolo ezingahleliwe ezingu-32-bit ezikhiqizwe isekethe ye-analog ehlanganisiwe.
I-RNG ingachazwa (ku-ETZPC) njengefinyeleleka ngesofthiwe evikelekile kuphela.
I-RNG yangempela ixhuma kuma-peripheral e-AES ne-PKA avikelekile ngebhasi elizinikele (elingafundeki i-CPU).

3.24

Ama-Cryptographic kanye nama-hash processors (i-CRYP, i-SAES, i-PKA ne-HASH)
Amadivayisi ashumeka iphrosesa eyodwa ye-cryptographic esekela ama-algorithms e-cryptographic athuthukile ngokuvamile adingekayo ukuze kuqinisekiswe ukugcinwa kuyimfihlo, ukuqinisekiswa, ubuqotho bedatha kanye nokunganqatshwa lapho kushintshisana imilayezo nontanga.
Amadivayisi aphinde ashumeke ukhiye ovikelekile ovikelekile we-DPA we-AES 128- no-256-bit (SAES) kanye ne-PKA hardware encryption/decryption accelerator, ngebhasi lehadiwe elizinikele elingafinyeleleki yi-CPU.
Izici eziyinhloko ze-CRYP: · DES/TDES (izinga lokubethela idatha/izinga lokubethela kathathu kwedatha): I-ECB (i-electronic
codebook) kanye ne-CBC (i-cipher block chaining) i-chaining algorithms, 64-, 128- noma 192-bit key · AES (izinga lokubethela elithuthukisiwe): I-ECB, i-CBC, i-GCM, i-CCM, ne-CTR (imodi yekhawunta) i-chaining algorithms, 128-, 192- noma 256-bit key
Izici eziyinhloko ze-HASH: · SHA-1, SHA-224, SHA-256, SHA-384, SHA-512, SHA-3 (vikela ama-algorithms e-HASH) · HMAC
I-cryptographic accelerator isekela ukukhiqizwa kwesicelo se-DMA.
I-CRYP, i-SAES, i-PKA ne-HASH ingachazwa (ku-ETZPC) njengokufinyeleleka ngesofthiwe evikelekile kuphela.

3.25

Ukuqalisa nokuvikeleka kanye nokulawula kwe-OTP (BSEC)
I-BSEC (ibhuthi nezokuphepha kanye nokulawula kwe-OTP) ihloselwe ukulawula ibhokisi le-fuse le-OTP (elihlelekayo lesikhathi esisodwa), elisetshenziselwa isitoreji esishumekiwe esingaguquguquki ekucushweni kwedivayisi nemingcele yokuphepha. Enye ingxenye ye-BSEC kufanele imiswe ukuthi ifinyeleleke ngesofthiwe evikelekile kuphela.
I-BSEC ingasebenzisa amagama e-OTP ukugcina i-HWKEY 256-bit ye-SAES (i-AES evikelekile).

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3.26

Izikhathi neziqaphi
Amadivayisi ahlanganisa izibali-sikhathi ezimbili zokulawula okuthuthukile, izibali-sikhathi eziyishumi zenjongo evamile (kuzo eziyisikhombisa zivikelekile), izibali sikhathi ezimbili eziyisisekelo, izibali-sikhathi zamandla aphansi ezinhlanu, izinja ezimbili zokubuka, nezibali-zikhathi zesistimu ezine ku-Cortex-A7 ngayinye.
Zonke izinto zokubala zesikhathi zingamiswa kumodi yokususa iphutha.
Ithebula elingezansi liqhathanisa izici zokulawula okuthuthukile, inhloso-jikelele, izibali sikhathi eziyisisekelo nezinamandla aphansi.

Uhlobo lwesibali sikhathi

Isikhathi

Ithebula 4. Ukuqhathaniswa kwesici sesikhathi

Isixazululo esiphikisayo-
tion

Uhlobo lwekhawunta

Isici se-Prescaler

Ukwenziwa kwesicelo se-DMA

Thwebula/qhathanisa iziteshi

Okukhiphayo okuhambisanayo

Isixhumi esibonakalayo esiphezulu
iwashi (MHz)

Ubukhulu
isibali sikhathi
iwashi (MHz)(1)

I-TIM1 ethuthukisiwe, -lawula i-TIM8

16-bit

Phezulu, Noma iyiphi inombolo phansi, phakathi kuka-1 phezulu/phansi kanye no-65536

Yebo

I-TIM2 TIM5

32-bit

Phezulu, Noma iyiphi inombolo phansi, phakathi kuka-1 phezulu/phansi kanye no-65536

Yebo

I-TIM3 TIM4

16-bit

Phezulu, Noma iyiphi inombolo phansi, phakathi kuka-1 phezulu/phansi kanye no-65536

Yebo

Noma iyiphi inombolo

I-TIM12(2) 16-bit

Kukhuphuke phakathi kuka-1

Cha

Okujwayelekile

kanye no-65536

inhloso

I-TIM13(2) I-TIM14(2)

16-bit

Noma iyiphi inombolo Phakathi kuka-1
kanye no-65536

Cha

Noma iyiphi inombolo

I-TIM15(2) 16-bit

Kukhuphuke phakathi kuka-1

Yebo

kanye no-65536

I-TIM16(2) I-TIM17(2)

16-bit

Noma iyiphi inombolo Phakathi kuka-1
kanye no-65536

Yebo

Okuyisisekelo

TIM6, TIM7

16-bit

Noma iyiphi inombolo Phakathi kuka-1
kanye no-65536

Yebo

I-LPTIM1,

Amandla aphansi

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

16-bit

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

Cha

I-LPTIM5

104.5

209

Cha

104.5

209

Cha

104.5

209

Cha

104.5

209

Cha

104.5

209

104.5

209

104.5

209

Cha

104.5

209

1(3)

Cha

104.5 104.5

1. Iwashi lesikhathi esiphezulu lifika ku-209 MHz kuye ngebhithi ye-TIMGxPRE ku-RCC. 2. Isibali sikhathi esivikelekile. 3. Asikho isiteshi sokuthwebula ku-LPTIM.

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3.26.1 3.26.2 3.26.3

Izibali-sikhathi ezithuthukile (TIM1, TIM8)
Izibali-zikhathi zokulawula okuthuthukile (TIM1, TIM8) zingabonwa njengamajeneretha e-PWM ezigaba ezintathu aphindwaphindwa eziteshini eziyisi-6. Zinemiphumela ehambisanayo ye-PWM enezikhathi zokufa ezihlelekayo. Zingabuye zibhekwe njengezibali sikhathi eziphelele zenhloso evamile. Amashaneli abo amane azimele angasetshenziselwa: · ukubamba okokufaka · ukuqhathanisa okukhiphayo · ukukhiqizwa kwe-PWM (amamodi aqondaniswe onqenqemeni noma phakathi nendawo) · okukhiphayo kwemodi ye-pulse eyodwa
Uma zilungiselelwe njengezibali sikhathi ezijwayelekile ze-16-bit, zinezici ezifanayo nezibali sikhathi zenhloso evamile. Uma alungiselelwe njengamajeneretha angu-16-bit we-PWM, anamandla okushintshashintsha agcwele (0-100 %).
Isibali sikhathi sokulawula okuthuthukile singasebenza kanye nezibali-sikhathi zenhloso evamile ngesici sesixhumanisi sesikhathi sokuvumelanisa noma ukuhlanganisa umcimbi.
I-TIM1 ne-TIM8 zisekela ukukhiqizwa kwesicelo se-DMA ezimele.
Izibali zesikhathi ezijwayelekile (TIM2, TIM3, TIM4, TIM5, TIM12, TIM13, TIM14, TIM15, TIM16, TIM17)
Kunezibali sikhathi eziyishumi ezivunyelaniswayo zenjongo evamile ezishumekwe kumadivayisi we-STM32MP133C/F (bona Ithebula 4 ukuze uthole umehluko). · TIM2, TIM3, TIM4, TIM5
I-TIM 2 ne-TIM5 zisekelwe kwikhawunta ye-32-bit yokulayisha kabusha ngokuzenzakalela phezulu/phansi kanye ne-prescaler engu-16-bit, kuyilapho i-TIM3 ne-TIM4 zisekelwe ku-16-bit yokulayisha kabusha okuzenzakalelayo phezulu/phansi kanye ne-prescaler engu-16-bit. Zonke izibali sikhathi zifaka iziteshi ezine ezizimele zokuthwebula okokufaka/ukuqhathanisa okukhiphayo, i-PWM noma okukhiphayo kwemodi ye-pulse eyodwa. Lokhu kunikeza kufika ku-16 ukuthwebula okokufaka/ukuqhathanisa okukhiphayo/ama-PWM kumaphakheji amakhulu. Lezi zibali-sikhathi zenhloso evamile zingasebenza ndawonye, noma nezinye izibali-sikhathi zenhloso evamile kanye nezibali-sikhathi ezithuthukisiwe i-TIM1 ne-TIM8, ngesici sesixhumanisi sesikhathi sokuvumelanisa noma ukuhlanganisa umcimbi. Noma isiphi salezi zibali-sikhathi senhloso evamile singasetshenziselwa ukukhiqiza okuphumayo kwe-PWM. I-TIM2, i-TIM3, i-TIM4, i-TIM5 zonke zinesicelo esizimele sokwenziwa kwesicelo se-DMA. Bayakwazi ukuphatha amasiginali wesishumeki se-quadrature (enyukayo) kanye nokuphumayo kwedijithali kusuka kuzinzwa zomphumela wehholo eyodwa kuya kwezine. · I-TIM12, TIM13, TIM14, TIM15, TIM16, TIM17 Lezi zibali sikhathi zisekelwe phezu kwekhawunta yokulayisha kabusha okuzenzakalelayo engu-16-bit kanye nesikali sangaphambili esingu-16-bit. I-TIM13, i-TIM14, i-TIM16 ne-TIM17 inesiteshi esisodwa esizimele, kuyilapho i-TIM12 ne-TIM15 zinamashaneli amabili azimele okuthwebula okokufaka/ukuqhathanisa okukhiphayo, i-PWM noma imodi ye-pulse eyodwa. Angavunyelaniswa nezibali sikhathi zenhloso evamile ye-TIM2, TIM3, TIM4, TIM5 noma zisetshenziswe njengezisekelo zesikhathi ezilula. Ngasinye salezi sibali sikhathi singachazwa (ku-ETZPC) njengesifinyeleleka ngesofthiwe evikelekile kuphela.
Izibali sikhathi eziyisisekelo (TIM6 ne-TIM7)
Lezi zibali sikhathi zisetshenziswa kakhulu njengesisekelo sesikhathi esijwayelekile esingu-16-bit.
I-TIM6 ne-TIM7 zisekela ukukhiqizwa kwesicelo se-DMA ezimele.

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3.26.4
3.26.5 3.26.6

Izibali-sikhathi zamandla aphansi (LPTIM1, LPTIM2, LPTIM3, LPTIM4, LPTIM5)
Isibali sikhathi ngasinye esinamandla amancane sinewashi elizimele futhi sisebenza naku-Stop mode uma sivulwe yi-LSE, LSI noma iwashi langaphandle. I-LPTIMx iyakwazi ukuvusa idivayisi ku-Stop mode.
Lezi zibali-zikhathi zamandla aphansi zisekela izici ezilandelayo: · Ikhawunta ye-16-bit phezulu enerejista ye-autoreload engu-16-bit · Irejista yokuqhathanisa engu-16-bit · Okukhiphayo okulungisekayo: i-pulse, PWM · Imodi eqhubekayo/yokudubula okukodwa · Isofthiwe ekhethekayo/i-trigger yokufaka i-hardware · Umthombo wewashi okhethekayo:
umthombo wewashi langaphakathi: LSE, LSI, HSI noma APB umthombo wewashi wangaphandle phezu kokufaka kwe-LPTIM (isebenza noma lingekho iwashi langaphakathi
umthombo osebenzayo, osetshenziswa uhlelo lokusebenza lwe-pulse counter) · Isihlungi se-digital glitch esihlelekayo · Imodi yesishumeki
I-LPTIM2 ne-LPTIM3 ingachazwa (ku-ETZPC) njengokufinyeleleka ngesofthiwe evikelekile kuphela.
Izinja ezizimele (IWDG1, IWDG2)
I-watchdog ezimele isekelwe ku-12-bit downcounter kanye ne-8-bit prescaler. Iwashi isuka ku-RC (LSI) yangaphakathi ezimele engu-32 kHz futhi, njengoba isebenza ngokuzimela ewashini elikhulu, ingasebenza nge-Stop and Standby modes. I-IWDG ingasetshenziswa njengenja yokugada ukuze usethe kabusha idivayisi uma kwenzeka inkinga. Kuyi-hardware- noma isoftware elungisekayo ngokusebenzisa amabhayithi okukhethwa kukho.
I-IWDG1 ingachazwa (ku-ETZPC) njengefinyeleleka ngesofthiwe evikelekile kuphela.
Izibali sikhathi ezijwayelekile (Cortex-A7 CNT)
Izibali-sikhathi ezijwayelekile ze-Cortex-A7 ezishumekwe ngaphakathi kwe-Cortex-A7 ziphakelwa inani elivela esizukulwaneni sesikhathi sesistimu (STGEN).
Iphrosesa ye-Cortex-A7 ihlinzeka ngezibali zesikhathi ezilandelayo: · isibali sikhathi esiphathekayo ukuze sisetshenziswe ezimodini ezivikelekile nezingavikelekile
Amarejista esibali sikhathi esiphathekayo asebhange ukuze anikeze amakhophi avikelekile nangavikelekile. · isibali sikhathi esibonakalayo sokusetshenziswa kumamodi angavikelekile · isibali sikhathi esibonakalayo sokusetshenziswa kwimodi ye-hypervisor
Izibali-sikhathi ezijwayelekile azizona izinto zomngcele ezimephuwe ngenkumbulo futhi zifinyeleleka kuphela ngemiyalo ethile ye-Cortex-A7 coprocessor (cp15).

3.27

Ukwenziwa kwesibali sikhathi sesistimu (STGEN)
Isizukulwane sesikhathi sesistimu (STGEN) sikhiqiza inani lokubala lesikhathi elihlinzeka ngokungaguquguquki view sesikhathi sazo zonke izibali-sikhathi ezijwayelekile ze-Cortex-A7.

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Isizukulwane sesikhathi sesistimu sinezici ezibalulekile ezilandelayo: · 64-bit ububanzi ukuze ugweme izinkinga ezidluliswayo · Qala kuqanda noma inani elihlelekayo · Lawula isixhumi esibonakalayo se-APB (STGENC) esenza isibali sikhathi silondolozwe futhi sibuyiselwe
kuyo yonke imicimbi ye-powerdown · I-interface yokufunda kuphela ye-APB (STGENR) eyenza inani lesibali sikhathi lifundeke
isofthiwe evikelekile namathuluzi okulungisa iphutha · Ukwenyuka kwenani lesikhathi okungamiswa phakathi nokulungisa iphutha
I-STGENC ingachazwa (ku-ETZPC) njengefinyeleleka ngesofthiwe evikelekile kuphela.

3.28

Iwashi lesikhathi sangempela (i-RTC)
I-RTC ihlinzeka ngokuvuka okuzenzakalelayo ukuze ilawule zonke izindlela zamandla aphansi.I-RTC iyisibali sikhathi/ikhawunta ye-BCD ezimele futhi inikeza iwashi/ikhalenda lesikhathi sosuku elinokuphazamiseka kwe-alamu okulungisekayo.
I-RTC ihlanganisa nefulegi lokuvuka elihlelekayo elinamandla okuphazamisa.
Amarejista amabili angama-32-bit aqukethe imizuzwana, imizuzu, amahora (ifomethi yamahora angu-12 noma angu-24), usuku (usuku lweviki), idethi (usuku lwenyanga), inyanga, nonyaka, evezwe ngefomethi yedesimali enekhodi kanambambili (BCD). Inani lamasekhondi amancane liyatholakala futhi ngefomethi kanambambili.
Imodi kanambambili iyasekelwa ukuze kube lula ukuphathwa komshayeli wesoftware.
Izinxephezelo zezinyanga ezingama-28-, 29- (unyaka ogxumayo), 30-, kanye nezinyanga ezingama-31 zenziwa ngokuzenzakalelayo. Isinxephezelo sesikhathi sokonga emini singenziwa futhi.
Amarejista engeziwe angama-32-bit aqukethe amasekhondi e-alamu ahlelekayo, imizuzwana, imizuzu, amahora, usuku, nosuku.
Isici sokulinganisa kwedijithali siyatholakala ukuze kunxeshezelwe noma yikuphi ukuchezuka ekunembeni kwe-crystal oscillator.
Ngemva kokusetha kabusha isizinda Sekhophi Yasenqolobaneni, wonke amarejista e-RTC avikelekile ekufinyeleleni kokubhala okungaba yizinambuzane futhi avikelwe ukufinyelela okuvikelekile.
Inqobo nje uma umthamo wokunikezelatage ihlala kububanzi bokusebenza, i-RTC ayilokothi ime, kungakhathaliseki isimo sedivayisi (Imodi yokuqalisa, imodi yamandla aphansi noma isethwe kabusha).
Izici eziyinhloko ze-RTC yilezi ezilandelayo: · Ikhalenda elinamasekhondi amancane, imizuzwana, imizuzu, amahora (ifomethi eyi-12 noma engama-24), usuku (usuku
isonto), idethi (usuku lwenyanga), inyanga, nonyaka · Isinxephezelo sokulondoloza emini ehlelekayo ngesofthiwe · I-alamu ehlelekayo enomsebenzi wokuphazamisa. I-alamu ingacushwa yinoma iyiphi
inhlanganisela yezinkambu zekhalenda. · Iyunithi yokuvuka ezenzakalelayo ekhiqiza ifulegi lezikhathi ezithile elicupha ukuvuka okuzenzakalelayo
phazamisa · Ukutholwa kwewashi lesithenjwa: iwashi lomthombo wesibili elinembe kakhudlwana (50 noma 60 Hz) lingaba
esetshenziselwa ukuthuthukisa ukunemba kwekhalenda. · Ukuvumelanisa okunembile newashi langaphandle kusetshenziswa isici sokushintsha kwesekhondi elingaphansi · Isekethe yokulinganisa yeDijithali (ukulungiswa okuphikisayo kwezikhathi ezithile): ukunemba okungu-0.95 ppm, okutholwe nge-
iwindi lokulinganisa lamasekhondi ambalwa

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· Isikhathiamp umsebenzi wokulondoloza umcimbi · Ukugcinwa kwe-SWKEY kumarejista ekhophi yasenqolobaneni e-RTC enokufinyelela okuqondile kwebhasi ku-SAE (hhayi
ifundeka yi-CPU) · Iziphazamiso/imicimbi ebukekayo:
I-alamu A I-alamu B Ukuvuka iphazamisa i-Timestamp · Usekelo lwe-TrustZone: I-Alarm A ye-RTC evikeleke ngokugcwele, i-alamu B, isibali sikhathi sokuvuka kanye nezikhathiamp umuntu ngamunye evikelekile noma engavikelekile
ukucushwa kwe-RTC ukulinganisa kwenziwe ngokuvikelekile ekucushweni okungavikelekile

3.29

Tamper kanye namarejista okusekelayo (TAMP)
Amarejista ayisipele angu-32 x 32-bit agcinwa kuwo wonke amamodi anamandla aphansi futhi nakumodi ye-VBAT. Angasetshenziselwa ukugcina idatha ebucayi njengoba okuqukethwe kwawo kuvikelwa ngu- atampisifunda sokutholwa.
Isikhombisa tampamaphini okufaka ama-er kanye nama-5 tampamaphini okukhiphayo ayatholakala ku-anti-tampukutholwa kwe-er. I-tampamaphinikhodi angalungiselelwa ukutholwa konqenqema, umphetho kanye nezinga, ukutholwa kwezinga ngokuhlunga, noma i-t esebenzayoamper lokho kwandisa izinga lokuvikeleka ngokuhlola ngokuzenzakalela ukuthi i-tampamaphinikhodi awavulwa ngaphandle noma amafushane.
TAMP izici eziyinhloko · amarejista ayisipele angama-32 (TAMP_BKPxR) isetshenziswe kusizinda se-RTC esisele
inikwa amandla yi-VBAT uma amandla e-VDD ecishiwe · 12 tampamaphinikhodi atholakalayo (ama-input ayisikhombisa kanye nemiphumela emihlanu) · Noma iyiphi i-tampukutholwa kwe-er kungakha izikhathi ze-RTCamp umcimbi. · Noma iyiphi i-tampukutholwa kwe-er kususa amarejista ayisipele. · Usekelo lwe-TrustZone:
Tampukulungiselelwa okuvikelekile noma okungavikelekile ukulungiselelwa kwerejista yesipele ezindaweni ezintathu ezinosayizi olungisekayo:
. indawo eyodwa evikelekile yokufunda/ukubhala . okukodwa bhala indawo evikelekile/efundwayo engavikelekile . eyodwa yokufunda/ubhale indawo engavikelekile · Ikhawunta ye-Monotonic

3.30

I-inter-integrated circuit interfaces (I2C1, I2C2, I2C3, I2C4, I2C5)
Amadivayisi ashumeka ukuxhumana kwe-I2C okuyisihlanu.
I-interface yebhasi ye-I2C iphatha ukuxhumana phakathi kwe-STM32MP133C/F kanye nebhasi le-I2C eliwuchungechunge. Ilawula konke ukulandelana okuqondene nebhasi ye-I2C, umthetho olandelwayo, ukulamula kanye nesikhathi.

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I-peripheral ye-I2C isekela: · Ukucaciswa kwebhasi kwe-I2C kanye ne-rev manual yomsebenzisi. 5 ukuhambisana:
Izindlela zesigqila ne-master, i-multimaster ikhono I-Standard-mode (Sm), ene-bitrate efika ku-100 kbit/s Fast-mode (Fm), ene-bitrate efika ku-400 kbit/s Fast-mode Plus (Fm+), ene-bitrate efika ku-1 Mbit/s kanye no-20 mA ophumayo wedrayivu ye-I/Os 7-bits 10-bits 7-bit ikheli le-addressable uhlelo olu-2.0 futhi ubambe izikhathi Ongazikhethela ukwelula iwashi · Ukucaciswa kwebhasi lokuphatha uhlelo (SMBus) ukuhambelana kwe-rev XNUMX: I-Hardware PEC (ukuhlola iphutha lephakethe) ukukhiqizwa nokuqinisekiswa nge-ACK
control Address resolution Protocol (ARP) support SMBus alert · Power system management protocol (PMBusTM) specication rev 1.1 ukuhambisana · Iwashi elizimele: ukukhethwa kwemithombo yewashi elizimele elivumela isivinini sokuxhumana se-I2C ukuthi sizimele ekuhleleni kabusha kwe-PCLK · Ukuvuka ku-Stop mode ekufanisweni kwekheli · Izihlungi ezihlelekayo ze-analog kanye ne-digital noise buffer · 1-DMA
I-I2C3, I2C4 kanye ne-I2C5 ingachazwa (ku-ETZPC) njengokufinyeleleka ngesofthiwe evikelekile kuphela.

3.31

I-Universal synchronous asynchronous receiver transmitter (USART1, UART2, USART3, USART6 kanye ne-UART4, UART5, UART7, UART8)
Amadivayisi anama-transmitters amane ashumekiwe we-universal synchronous receiver (USART1, USART2, USART3 kanye ne-USART6) kanye nama-transmitters amane ajwayelekile asynchronous receiver (UART4, UART5, UART7 kanye ne-UART8). Bheka ithebula elingezansi ukuze uthole isifinyezo se-USARTx kanye nezici ze-UARTx.
Lezi zindawo zokusebenzelana zinikeza ukuxhumana okuvumelanayo, ukwesekwa kwe-IrDA SIR ENDEC, imodi yokuxhumana ye-multiprocessor, imodi yokuxhumana ye-single-half-duplex futhi inekhono le-LIN master/isigqila. Banikeza ukuphathwa kwehadiwe kwezimpawu ze-CTS ne-RTS, kanye ne-RS485 Driver Enable. Bayakwazi ukuxhumana ngesivinini esifinyelela ku-13 Mbit/s.
I-USART1, USART2, USART3 ne-USART6 nazo zihlinzeka ngemodi ye-Smartcard (ithobela i-ISO 7816) nekhono lokuxhumana elifana ne-SPI.
Yonke i-USART inesizinda sewashi esizimele ewashini le-CPU, okuvumela i-USARTx ukuthi ivuse i-STM32MP133C/F kumodi yokumisa isebenzisa ama-baudrates afika ku-200 Kbaud.Imicimbi yokuvuka esuka ku-Stop mode iyahleleka futhi ingaba:
· qala ukuthola kancane
· Noma yiluphi uhlaka lwedatha olutholiwe
· uhlaka lwedatha oluhleliwe oluthile

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I-STM32MP133C/F

Iyasebenza ngaphezuluview

Zonke izixhumi ezibonakalayo ze-USART zinganikezwa isilawuli se-DMA.

Ithebula 5. Izici ze-UART/UART

UART amamodi/izici(1)

UART1/2/3/6

UART4/5/7/8

Ukulawulwa kokugeleza kwehadiwe kwemodemu

Ukuxhumana okuqhubekayo kusetshenziswa i-DMA

Ukuxhumana kwe-Multiprocessor

Imodi ye-SPI evumelanisiwe (inkosi/isigqila)

–

Imodi ye-Smartcard

–

Ukuxhumana kwe-single-wire half-duplex block IrDA SIR ENDEC

Imodi ye-LIN

Isizinda sewashi elikabili kanye nokuvuka kusuka kumodi yamandla aphansi

Isikhathi sokuvala somamukeli siphazamisa ukuxhumana kwe-Modbus

Ukutholwa kwezinga le-baud okuzenzakalelayo

Umshayeli Vumela

UART ubude bedatha

7, 8 no-9 iziqephu

1. X = isekelwe.

U-USART1 kanye no-USART2 kungachazwa (ku-ETZPC) njengokufinyeleleka ngesofthiwe evikelekile kuphela.

3.32

Izixhumanisi ze-serial peripheral (SPI1, SPI2, SPI3, SPI4, SPI5) inter- integrated sound interfaces (I2S1, I2S2, I2S3, I2S4)
Amadivayisi afaka ama-SPI afika amahlanu (SPI2S1, SPI2S2, SPI2S3, SPI2S4, kanye ne-SPI5) avumela ukuxhumana kufika ku-50 Mbit/s kumodi eyinhloko neyesigqila, ngezindlela ze-half-duplex, fullduplex kanye ne-simplex. I-3-bit prescaler inikeza amafrikhwensi emodi eyinhloko ayisishiyagalombili futhi ifreyimu iyalungiseka ukusuka ku-4 kuya ku-16 bits. Zonke izixhumanisi ze-SPI zisekela imodi ye-NSS pulse, imodi ye-TI, ukubala kwezingxenyekazi zekhompuyutha ze-CRC nokuphindaphinda kwe-8-bit eshumekiwe ye-Rx kanye ne-Tx FIFOs enamandla e-DMA.
I-I2S1, I2S2, I2S3, kanye ne-I2S4 ziphindaphindwe nge-SPI1, SPI2, SPI3 kanye ne-SPI4. Angasebenza kumodi ye-master noma yesigqila, kumodi yokuxhumana egcwele i-duplex ne-half-duplex, futhi ingalungiselelwa ukuthi isebenze ngokulungiswa kwe-16- noma 32-bit njengendlela yokufaka noma yokuphumayo. Umsindo sampamaza e-ling asuka ku-8 kHz aze afike ku-192 kHz ayasekelwa. Zonke izixhumanisi ze-I2S zisekela ukuphindaphindeka kwe-8-bit eshumekiwe ye-Rx kanye ne-Tx FIFOs enamandla e-DMA.
I-SPI4 ne-SPI5 ingachazwa (ku-ETZPC) njengokufinyeleleka ngesofthiwe evikelekile kuphela.

3.33

Izixhumi ezibonakalayo ze-serial audio (SAI1, SAI2)
Amadivayisi ashumeka ama-SAI amabili avumela ukuklanywa kwamaphrothokholi amaningi we-stereo noma we-mono audio

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I-STM32MP133C/F

njenge-I2S, LSB noma i-MSB-justified, PCM/DSP, TDM noma AC'97. Okukhiphayo kwe-SPDIF kuyatholakala uma ibhulokhi yomsindo ilungiswa njengesidluliseli. Ukuletha leli zinga lokuguquguquka nokuhleleka kabusha, i-SAI ngayinye iqukethe amabhulokhi amancane amabili azimele womsindo. Ibhulokhi ngayinye inejeneretha yewashi layo kanye nesilawuli somugqa we-I/O. Umsindo sampamafrikhwensi e-ling afika ku-192 kHz ayasekelwa. Ngaphezu kwalokho, imibhobho engafinyelela kwayisishiyagalombili ingasekelwa ngenxa yokuxhumana okushumekiwe kwe-PDM. I-SAI ingasebenza ekucushweni okuyinhloko noma kwesigqila. Amabhulokhi amancane alalelwayo angaba nomamukeli noma isidlulisi futhi angasebenza ngokuhambisanayo noma ngokulinganayo (ngokuphathelene nenye). I-SAI ingaxhunywa namanye ama-SAI ukuze isebenze ngokuhambisanayo.

3.34

I-SPDIF receiver interface (SPDIFRX)
I-SPDIFRX yakhelwe ukuthola ukugeleza kwe-S/PDIF okuthobelana ne-IEC-60958 kanye ne-IEC-61937. Lawa mazinga asekela ukusakaza okulula kwe-stereo kufika kuma-s aphezuluample rate, nomsindo ozungezile weziteshi eziningi ezicindezelwe, njengalezo ezichazwe yi-Dolby noma i-DTS (kufika ku-5.1).
Izici eziyinhloko ze-SPDIFRX yilezi ezilandelayo: · Okokufaka okufika kokune okutholakalayo · Ukutholwa kwesilinganiso sezimpawu ezizenzakalelayo · Izinga lophawu olukhulu: 12.288 MHz · Ukusakaza kwe-stereo kusuka ku-32 kuya ku-192 kHz kusekelwa · Ukusekelwa komsindo IEC-60958 ne-IEC-61937, izinhlelo zokusebenza zabathengi · Ukuphathwa kwe-Parity bit · Ukuxhumana kusetshenziswa i-DMA yomsindoampkancane · Ukuxhumana kusetshenziswa i-DMA ukulawula nolwazi lwesiteshi somsebenzisi · Amandla okuphazamisa
Isamukeli se-SPDIFRX sinikeza zonke izici ezidingekayo ukuze kutholwe izinga lophawu, nokunquma ukusakazwa kwedatha engenayo. Umsebenzisi angakhetha okokufaka okufunwayo kwe-SPDIF, futhi uma isignali evumelekile itholakala, i-SPDIFRX iphinda i-sampikhipha isignali engenayo, iqophe ukusakaza kwe-Manchester, futhi ibona amafreyimu, ozimele abancane kanye nama-elementi avimbela. I-SPDIFRX iletha kudatha ekhishwe ikhodi ye-CPU, namafulegi ahlobene nesimo.
I-SPDIFRX iphinde inikeze isignali ebizwa ngokuthi spdif_frame_sync, eguquguquka ngezinga lohlaka olungaphansi lwe-S/PDIF olusetshenziselwa ukubala umugqa oqondile.ample isilinganiso sama-algorithms wewashi lokukhukhuleka.

3.35

Vikela ukuxhumana kwedijithali okokufaka/okuphumayo kwe-MultiMediaCard (SDMMC1, SDMMC2)
Izixhumanisi ezimbili ezivikelekile zedijithali zokufakwayo/okuphumayo kwe-MultiMediaCard (SDMMC) zinikeza ukuxhumana phakathi kwebhasi le-AHB namakhadi ememori e-SD, amakhadi e-SDIO namadivayisi we-MMC.
Izici ze-SDMMC zifaka lokhu okulandelayo: · Ukuthobela Inguqulo Eshumekiwe ye-MultiMediaCard System 5.1
Ukusekelwa kwekhadi kwezindlela ezintathu ezihlukene zedathabhasi: 1-bit (okuzenzakalelayo), 4-bit kanye no-8-bit

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I-STM32MP133C/F

Iyasebenza ngaphezuluview

(Isivinini se-HS200 SDMMC_CK sikhawulelwe kwisivinini esiphezulu esivunyelwe se-I/O)(HS400 ayisekelwe)
· Ukuhambisana okugcwele nezinguqulo zangaphambilini ze-MultiMediaCards (ukuhambisana emuva)
· Ukuhambisana ngokugcwele nezicaciso zekhadi le-SD yenguqulo engu-4.1 (isivinini se-SDR104 SDMMC_CK sikhawulelwe kusivinini esivunyelwe se-I/O esiphezulu, imodi ye-SPI nemodi ye-UHS-II ayisekelwe)
· Ukuhambisana ngokugcwele nenguqulo ye-SDIO yenguqulo ye-4.0 yekhadi lokucaciswa kwekhadi lezindlela ezimbili ezihlukene zedathabhasi: i-1-bit (ezenzakalelayo) ne-4-bit (SDR104 SDMMC_CK isivinini esinomkhawulo wesivinini esiphezulu esivunyelwe se-I/O, imodi ye-SPI nemodi ye-UHS-II ayisekelwe)
· Ukudluliswa kwedatha kufika ku-208 Mbyte/s kumodi ye-8-bit (kuya ngesivinini esiphezulu esivunyelwe se-I/O)
· Idatha nomyalo ophumayo wenza amasiginali alawule abashayeli bangaphandle be-bidirectional
· Isilawuli esizinikezele se-DMA sishumekwe kusixhumi esibonakalayo somsingathi we-SDMMC, okuvumela ukudluliswa kwesivinini esikhulu phakathi kwesixhumi esibonakalayo ne-SRAM
· Ukusekelwa kohlu oluxhumene ne-IDMA
· Izinsiza zamandla ezinikelwe, i-VDDSD1 ne-VDDSD2 ye-SDMMC1 ne-SDMMC2 ngokulandelanayo, isusa isidingo sokufakwa kwe-level-shifter kusixhumi esibonakalayo sekhadi le-SD kumodi ye-UHS-I.
Ama-GPIO athile kuphela e-SDMMC1 kanye ne-SDMMC2 atholakala kuphini lokunikezela nge-VDDSD1 elizinikele noma le-VDDSD2. Lawo ayingxenye ye-GPIO yokuqalisa ezenzakalelayo ye-SDMMC1 ne-SDMMC2 (SDMMC1: PC[12:8], PD[2], SDMMC2: PB[15,14,4,3], PE3, PG6). Angabonakala kwelinye ithebula lomsebenzi ngamasignali anesijobelelo esithi “_VSD1” noma “_VSD2”.
I-SDMMC ngayinye ihlanganiswe ne-block block (i-DLYBSD) evumela ukusekelwa kwefrikhwensi yedatha yangaphandle engaphezu kuka-100 MHz.
Zombili izixhumanisi ze-SDMMC zinezimbobo zokucushwa ezivikelekayo.

3.36

Inethiwekhi yendawo yesilawuli (FDCAN1, FDCAN2)
Isistimu engaphansi yenethiwekhi yendawo yesilawuli (CAN) inamamojula amabili e-CAN, inkumbulo ye-RAM yomlayezo owabiwe kanye neyunithi yokulinganisa iwashi.
Womabili amamojula we-CAN (FDCAN1 kanye ne-FDCAN2) athobelana ne-ISO 11898-1 (inguqulo ye-CAN yephrothokholi yenguqulo engu-2.0 ingxenye A, B) kanye nenguqulo ye-CAN FD yephrothokholi engu-1.0.
Inkumbulo ye-RAM yomlayezo we-10-Kbyte isebenzisa izihlungi, yamukela ama-FIFO, yamukela amabhafa, idlulisa ama-FIFO omcimbi kanye namabhafa (kanye nezibangeli ze-TTCAN). Lo mlayezo we-RAM wabiwe phakathi kwamamojula amabili e-FDCAN1 kanye ne-FDCAN2.
Iyunithi yokulinganisa iwashi evamile iyakhethwa. Ingasetshenziselwa ukukhiqiza iwashi elilinganisiwe lakho kokubili i-FDCAN1 ne-FDCAN2 kusukela ku-oscillator ye-RC yangaphakathi ye-HSI kanye ne-PLL, ngokuhlola imilayezo ye-CAN etholwe yi-FDCAN1.

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I-STM32MP133C/F

3.37

I-Universal serial bus host-high-speed host (USBH)
Amadivayisi ashumeka umsingathi oyedwa we-USB wesivinini esikhulu (kufika ku-480 Mbit/s) ngezimbobo ezimbili ezibonakalayo. I-USBH isekela kokubili okuphansi, okugcwele isivinini (OHCI) kanye nokusebenza kwesivinini esikhulu (EHCI) ngokuzimela embotsheni ngayinye. Ihlanganisa ama-transceiver amabili angasetshenziselwa ijubane eliphansi (1.2 Mbit/s), isivinini esigcwele (12 Mbit/s) noma ukusebenza kwesivinini esikhulu (480 Mbit/s). I-transceiver yesibili enesivinini esiphezulu yabiwe ne-OTG high-speed.
I-USBH ihambisana nokucaciswa kwe-USB 2.0. Izilawuli ze-USBH zidinga amawashi azinikele akhiqizwa i-PLL ngaphakathi kwe-USB yesivinini esiphezulu se-PHY.

3.38

I-USB on the-go high-speed (OTG)
Amadivayisi ashumeka eyodwa ye-USB OTG high-speed (efika ku-480 Mbit/s) idivayisi/umsingathi/i-OTG peripheral. I-OTG isekela kokubili ukusebenza okugcwele isivinini kanye nesivinini esikhulu. I-transceiver yokusebenza ngesivinini esiphezulu (480 Mbit/s) yabelwana nembobo yesibili ye-USB Host.
I-USB OTG HS ihambisana nokucaciswa kwe-USB 2.0 kanye nokucaciswa kwe-OTG 2.0. Ine-software-configurable endpoint setting futhi isekela ukumisa/ukuqalisa kabusha. Izilawuli ze-USB OTG zidinga iwashi elizinikele elingu-48 MHz elikhiqizwa i-PLL ngaphakathi kwe-RCC noma ngaphakathi kwe-USB yesivinini esiphezulu se-PHY.
Izici eziyinhloko ze-USB OTG HS zibalwe ngezansi: · Ubukhulu obuhlanganisiwe be-Rx ne-Tx FIFO ka-4 Kbyte nobukhulu be-FIFO obuguquguqukayo · I-SRP (isivumelwano sesicelo seseshini) kanye nokusekelwa kwe-HNP (iphrothokholi yokuxoxisana kosokhaya) · Amaphoyinti wokuphela ayisishiyagalombili aqondiswa kabili · Amashaneli angu-16 abamba ngokusekelwa kwe-periodic OUT · I-Software elungisekayo1.3 imodi ye-OTG ye-OTG2.0. Ukusekelwa kwe-LPM (ukuphathwa kwamandla okuxhumanisa) · Ukwesekwa kwe-2.0 yokushaja ukushaja kwebhethri · Usekelo lwe-HS OTG PHY · I-USB DMA yangaphakathi · I-HNP/SNP/IP ngaphakathi (asikho isidingo sanoma yisiphi isixhasi sangaphandle) · Kumamodi e-OTG/Host, inkinobho yamandla iyadingeka uma kwenzeka amadivayisi ahamba ngebhasi
kuxhunyiwe.
Imbobo yokumisa ye-USB OTG ingavikeleka.

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Iyasebenza ngaphezuluview

3.39

Izixhumanisi ze-Gigabit Ethernet MAC (ETH1, ETH2)
Amadivayisi ahlinzeka ngezilawuli zokufinyelela zemidiya ye-gigabit (GMAC) ezimbili ezithobela i-IEEE-802.3-2002 (GMAC) yezokuxhumana ze-Ethernet LAN ngokusebenzisa isixhumi esibonakalayo esijwayelekile esimaphakathi esizimele (MII), isixhumi esibonakalayo esincishisiwe esizimele (RMII), noma isixhumi esibonakalayo esincishisiwe se-gigabit medium-independent (RGMII).
Amadivayisi adinga idivayisi yesixhumi esibonakalayo sangaphandle (i-PHY) ukuze ixhumeke ebhasini le-LAN eliphathekayo (i-twisted-pair, fibre, njll.). I-PHY ixhumeke embobeni yedivayisi kusetshenziswa amasignali angu-17 we-MII, amasiginali angu-7 we-RMII, noma amasiginali angu-13 we-RGMII, futhi ingawashwa kusetshenziswa i-25 MHz (MII, RMII, RGMII) noma 125 MHz (RGMII) kusukela ku-STM32MP133C/F noma kusukela ku-PHY.
Amadivayisi afaka izici ezilandelayo: · Amamodi okusebenza nezixhumi ezibonakalayo ze-PHY
10-, 100-, kanye ne-1000-Mbit/s amanani okudluliswa kwedatha Ukusekelwa kwakho kokubili ukusebenza kwe-duplex egcwele kanye nengxenye ye-duplex ye-MII, RMII kanye ne-RGMII PHY · Ukulawulwa kokucubungula Ukuhlunga kwePhakethi Yezendlalelo Eziningi: Ukuhlunga kwe-MAC kumthombo (SA) nendawo (DA)
ikheli elinesihlungi esiphelele nesine-hashi, i-VLAN tag-ukuhlunga okusekelwe ngesihlungi esiphelele kanye ne-hashi, ukuhlunga kwe-Layer 3 kumthombo we-IP (SA) noma ikheli lendawo (DA), ukuhlunga kwe-Layer 4 kumthombo (SP) noma imbobo (DP) i-Double VLAN processing: ukufakwa kwe-VLAN emibili. tags endleleni yokudlulisa, tag ukuhlunga endleleni yokwamukela i-IEEE 1588-2008/PTPv2 Usekelo Isekela izibalo zenethiwekhi ezinezibali ze-RMON/MIB (RFC2819/RFC2665) · Ukucubungula ukukhishwa kwezingxenyekazi zekhompyutha Isendlalelo kanye nokuqaliswa kohlaka lwedatha (SFD) ukufakwa noma ukususwa kwenjini yokulayisha ye-Integrity checksum ye-IP header/ICUMP kanye ne-TCPMP yokuhlola isheke thola ukubalwa kwe-checksum nokuqhathanisa impendulo yesicelo se-ARP ezenzakalelayo nengxenye ye-MAC yekheli le-TCP: ukuhlukaniswa okuzenzakalelayo kwephakethe le-TCP lokudlulisa elikhulu libe ngamaphakethe amancane amaningi
Kokubili i-ETH1 ne-ETH2 ingahlelwa njengevikelekile. Uma kuvikelekile, ukuthengiselana nge-interface ye-AXI kuvikelekile, futhi amarejista okucupha angashintshwa kuphela ngokufinyelela okuvikelekile.

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I-STM32MP133C/F

3.40

Lungisa ingqalasizinda
Amadivayisi anikezela ngokususa iphutha okulandelayo kanye nezici zokulandelela ukusekela ukuthuthukiswa kwesofthiwe nokuhlanganiswa kwesistimu: · Ukulungisa iphutha le-Breakpoint · Ukulandelela ukusetshenziswa kwekhodi · I-software instrumentation · JTAG imbobo yokususa iphutha · Imbobo ye-serial-wire debug · Okokufaka nokukhiphayo Qalisa · Landela imbobo · Ukulungisa iphutha le-Arm CoreSight futhi ulandelele izingxenye
Ukulungisa iphutha kungalawulwa nge-JTAG/imbobo yokufinyelela yokususa iphutha ye-serial-wire, kusetshenziswa amathuluzi ajwayelekile omkhakha wokususa amaphutha.
Imbobo yokulandelela ivumela idatha ukuthi ithathwe ukuze igawulwe futhi ihlaziywe.
Ukufinyelela kokususa iphutha ezindaweni ezivikelekile kunikwa amandla amasiginali wokuqinisekisa ku-BSEC.

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I-STM32MP133C/F

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

Umfanekiso 5. Ukuvota kwe-STM32MP133C/F I-LFBGA289

I-VSS

PA9

PD10

PB7

I-PE7

PD5

I-PE8

PG4

PH9

PH13

I-PC7

PB9

PB14

PG6

PD2

I-PC9

I-VSS

PD3

PF5

PD14

I-PE12

I-PE1

I-PE9

PH14

I-PE10

PF1

PF3

I-PC6

PB15

PB4

I-PC10

I-PC12

DDR_DQ4 DDR_DQ0

PB6

PH12

I-PE14

I-PE13

PD8

PD12

PD15

I-VSS

PG7

PB5

PB3

I-VDDSD1

PF0

I-PC11

DDR_DQ1

DDR_ DQS0N

DDR_ DQS0P

PB8

PD6

I-VSS

I-PE11

PD1

I-PE0

PG0

I-PE15

PB12

PB10

I-VDDSD2

I-VSS

I-PE3

I-PC8

DDR_ DQM0

DDR_DQ5 DDR_DQ3

PG9

PD11

PA12

PD0

I-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

I-VDD

I-VDDCPU VDDCPU

I-VDD

VDDQ_ DDR

I-VSS

DDR_A13

I-VSS

DDR_A9

DDR_A2

PF9

PF6

PF10

PG15

PF8

I-VDD

I-VSS

VDDQ_ DDR

DDR_BA2 DDR_A7

DDR_A3

DDR_A0 DDR_BA0

PH11

I-PI3

PH7

PB2

I-PE4

VDDCPU

I-VSS

I-VDDCORE VDDCORE VDDCORE

I-VSS

VDDQ_ DDR

DDR_WEN

I-VSS

DDR_ODT DDR_CSN

DDR_ RASN

PD13

I-VBAT

I-PI2

VSS_PLL VDD_PLL VDCPU

I-VSS

I-VDDCORE

I-VSS

I-VDDCORE

I-VSS

VDDQ_ DDR

I-VDDCORE DDR_A10

DDR_CASN

DDR_ CLKP

DDR_ CLKN

PC14OSC32_IN

I-PC15OSC32_
PHUMA

I-VSS

I-PC13

I-PI1

I-VDD

I-VSS

I-VDDCORE VDDCORE VDDCORE

I-VSS

VDDQ_ DDR

DDR_A11 DDR_CKE DDR_A1 DDR_A15 DDR_A12

I-PE2

PF4

PH6

I-PI0

PG3

I-VDD

I-VSS

VDDQ_ DDR

DDR_ATO

DDR_ DTO0

DDR_A8 DDR_BA1 DDR_A14

PF7

PA8

PG11

VDD_ANA VSS_ANA

I-VDD

VDDQ_ DDR

DDR_ VREF

DDR_A4

I-VSS

DDR_ DTO1

DDR_A6

I-PE6

PG1

PD7

I-VSS

PB11

PF13

I-VSSA

PA3

I-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-

I-VDDA

PG13

PG14

VDD3V3_ USBHS

I-VSS

PI5-BOOT1 VSS_PLL2 PWR_ON

DDR_ DQ11

DDR_ DQ13

DDR_DQ9

PG2

PH3

PWR_CPU _ON

PA1

I-VSS

I-VREF+

I-PC5

I-VSS

I-VDD

PF15

I-VDDA1V8_ REG

I-PI6-BOOT2

VDD_PLL2

PH5

DDR_ DQ12

DDR_ DQS1N

DDR_ DQS1P

PG12

PA11

I-PC0

PF12

I-PC3

PF11

PB1

PA6

I-PE5

PDR_ON USB_DP2

PA14

USB_DP1

BYPASS_ REG1V8

PH4

DDR_ DQ15

DDR_ DQ14

I-VSS

PA7

PA0

PA5

PA4

I-PC4

PB0

I-PC1

I-PC2

I-NRST

I-USB_DM2

USB_ RREF

USB_DM1 PI4-BOOT0

PA10

I-PI7

I-VSS

I-MSv65067V5

Umfanekiso ongenhla ubonisa iphakethe eliphezulu view.

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Iphinikhodi, incazelo yephini kanye neminye imisebenzi

I-STM32MP133C/F

Umfanekiso 6. Ukuvota kwe-STM32MP133C/F TFBGA289

I-VSS

PD4

I-PE9

PG0

PD15

I-PE15

PB12

PF1

I-PC7

I-PC6

PF0

PB14

VDDSD2 VDDSD1 DDR_DQ4 DDR_DQ0

I-VSS

I-PE12

PD8

I-PE0

PD5

PD9

PH14

PF2

I-VSS

PF3

PB13

PB3

I-PE3

I-PC12

I-VSS

DDR_DQ1

DDR_ DQS0N

DDR_ DQS0P

I-PE13

PD1

I-PE1

I-PE7

I-VSS

I-VDD

I-PE10

PG7

PG4

PB9

PH10

I-PC11

I-PC8

DDR_DQ2

DDR_ DQM0

DDR_DQ3 DDR_DQ5

PF5

PA9

PD10

VDDCPU

PB7

VDDCPU

PD12

VDDCPU

PH9

I-VDD

PB15

I-VDD

I-VSS

VDDQ_ DDR

DDR_ RESETN

DDR_DQ7 DDR_DQ6

PD0

I-PE14

I-VSS

I-PE11

VDDCPU

I-VSS

PA15

I-VSS

PH13

I-VSS

PB4

I-VSS

VDDQ_ DDR

I-VSS

VDDQ_ DDR

I-VSS

DDR_A13

PH8

PA12

I-VDD

VDDCPU

I-VSS

I-VDDCORE

PD14

I-PE8

PB5

I-VDDCORE

I-PC10

I-VDDCORE

I-VSS

VDDQ_ DDR

DDR_A7

DDR_A5

DDR_A9

PD11

PH2

PB6

PB8

PG9

PD3

PH12

PG15

PD6

PB10

PD2

I-PC9

DDR_A2 DDR_BA2 DDR_A3

DDR_A0 DDR_ODT

PG5

PG10

PF8

VDDCPU

I-VSS

I-VDDCORE

PH11

I-PI3

PF9

PG6

BYPASS_ REG1V8

I-VDDCORE

I-VSS

VDDQ_ DDR

DDR_BA0 DDR_CSN DDR_WEN

J VDD_PLL VSS_PLL

PG8

I-PI2

I-VBAT

PH6

PF7

PA8

PF12

I-VDD

I-VDDA1V8_ REG

PA10

DDR_ VREF

DDR_ RASN

DDR_A10

I-VSS

DDR_CASN

I-PE4

PF10

PB2

I-VDD

I-VSS

I-VDDCORE

PA13

PA1

I-PC4

I-NRST

VSS_PLL2 VDDCORE

I-VSS

VDDQ_ DDR

DDR_A15

DDR_ CLKP

DDR_ CLKN

PF6

I-VSS

PH7

VDD_ANA VSS_ANA

PG12

PA0

PF11

I-PE5

PF15

VDD_PLL2

PH5

DDR_CKE DDR_A12 DDR_A1 DDR_A11 DDR_A14

PC14OSC32_IN

I-PC15OSC32_
PHUMA

I-PC13

I-VDD

I-VSS

PB11

PA5

PB0

I-VDDCORE

USB_ RREF

PI6-BOOT2 VDDCORE

I-VSS

VDDQ_ DDR

DDR_A6

DDR_A8 DDR_BA1

PD13

I-VSS

I-PI0

I-PI1

PA11

I-VSS

PA4

PB1

I-VSS

I-PI5-BOOT1

I-VSS

VDDQ_ DDR

I-VSS

VDDQ_ DDR

I-VSS

DDR_ATO

PH0OSC_IN

PH1OSC_OUT

PF4

PG1

I-VSS

I-VDD

I-PC3

I-PC5

I-VDD

I-PI4-BOOT0

I-VDD

I-VSS

VDDQ_ DDR

DDR_A4 DDR_ZQ DDR_DQ8

PG11

I-PE6

PD7

PWR_ CPU_ON

PA2

PA7

I-PC1

PA6

PG13

I-NJTRST

PA14

I-VSS

PWR_ON

DDR_ DQM1

DDR_ DQ12

DDR_ DQ11

DDR_DQ9

I-PE2

PH3

PF13

I-PC0

I-VSSA

VREF-

PA3

PG14

USB_DP2

I-VSS

VSS_ USBHS

USB_DP1

PH4

DDR_ DQ13

DDR_ DQ14

DDR_ DQS1P

DDR_ DQS1N

I-VSS

PG3

PG2

PF14

I-VDDA

I-VREF+

PDR_ON

I-PC2

I-USB_DM2

I-VDDA1V1_ REG

VDD3V3_ USBHS

I-USB_DM1

I-PI7

Umfanekiso ongenhla ubonisa iphakethe eliphezulu view.

PWR_LP

DDR_ DQ15

DDR_ DQ10

I-VSS

I-MSv67512V3

50/219

Idatha ye-DS13875 Rev5

I-STM32MP133C/F

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

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

I-VSS

PA9

I-PE13 PE12

PD12

PG0

I-PE15

PG7

PH13

PF3

PB9

PF0

I-PC10 PC12

I-PC9

I-VSS

PD0

I-PE11

PF5

PA15

PD8

I-PE0

I-PE9

PH14

I-PE8

PG4

PF1

I-VSS

PB5

I-PC6

I-PB15 PB14

I-PE3

I-PC11

DDR_ DQ4

DDR_ DQ1

DDR_ DQ0

PB6

PD3

I-PE14 PD14

PD1

PB7

PD4

PD5

PD9

I-PE10 PB12

PH9

I-PC7

PB3

I-VDD SD2

PB4

PG6

I-PC8

PD2

DDR_ DDR_ DQS0P DQS0N

PB8

PD6

PH12

PD10

I-PE7

PF2

PB13

I-VSS

DDR_ DQ2

DDR_ DQ5

DDR_ DQM0

PH2

PH8

I-VSS

I-VDD CPU

I-PE1

PD15

I-VDD CPU

I-VSS

I-VDD

PB10

PH10

VDDQ_ DDR

I-VSS

I-VDD SD1

DDR_ DQ3

DDR_ DQ6

PF8

PG9

PD11 PA12

I-VSS

DDR_ DQ7

DDR_ A5

I-VSS

PF6

PG10

PG5

I-VDD CPU

I-PE4

PF10 PG15

PG8

PH7

PD13

PB2

PF9

I-VDD CPU

I-VSS

I-VDD

I-VDD CPU

I-VDD CORE

I-VSS

I-VDD

I-VSS

VDDQ_ DDR

I-VSS

I-VDD

I-VSS

I-VDD CORE

I-VSS

I-VDD

I-VDD CORE

VDDQ_ DDR

DDR_ A13

DDR_ A2

DDR_ A9

DDR_ SETHA KABUSHA
N

DDR_ BA2

DDR_ A3

DDR_ A0

DDR_ A7

DDR_ BA0

DDR_ CSN

DDR_ ODT

VSS_ PLL

VDD_ PLL

PH11

I-VDD CPU

I-PC15-

I-VBAT OSC32 PI3

I-VSS

_OUT

I-PC14-

I-VSS OSC32 PC13

_IN

I-VDD

I-PE2

PF4

PH6

I-PI2

I-VDD CPU
I-VDD CORE
I-VSS
I-VDD

I-VSS

I-VDD CORE

I-VSS

I-VDD CORE

I-VSS

I-VDD

I-VDD CORE

I-VSS

I-VDD

I-VDD CORE

VDDQ_ DDR
I-VSS
VDDQ_ DDR
I-VDD CORE

VDDQ_ DDR

DDR_ WEN

DDR_ RASN

I-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

I-PI1

I-PI0

I-VSS

DDR_ DTO1

DDR_ ATO

DDR_ A8

DDR_ BA1

PG1

PG11

PH3

I-VDD

I-VSS

I-VDD

I-VDD CORE

I-VSS

I-VDD

I-VDD CORE

I-VSS

VDDQ_ DDR

DDR_ A4

DDR_ ZQ

DDR_ A6

I-VSS

I-PE6

PH0OSC_IN

PA13

I-VSS

DDR_ VREF

DDR_ DQ10

DDR_ DQ8

I-VSS

PH1OSC_ PHUMILE

VSS_ ANA

I-VSS

I-VDD

I-VDDA VSSA

PA6

I-VSS

I-VDD CORE

I-VSS

I-VDD VDDQ_ CORE DDR

I-VSS

PWR_ VULIWE

DDR_ DQ13

DDR_ DQ9

PD7

VDD_ ANA

PG2

PA7

VREF-

I-NJ TRST

I-VDDA1 V1_ REG

I-VSS

PWR_ DDR_ DDR_ LP DQS1P DQS1N

PWR_

PG3

PG12 CPU_ PF13

I-PC0

PC3 VREF+ PB0

PA3

I-PE5

I-VDD

USB_ RREF

PA14

I-VDD 3V3_ USBHS

I-VDDA1 V8_ REG

I-VSS

BYPAS S_REG
1V8

PH5

DDR_ DQ12

DDR_ DQ11

DDR_ DQM1

PA11

PF14

PA0

PA2

PA5

PF11

I-PC4

PB1

I-PC1

PG14

I-NRST

PF15

USB_ VSS_

PI6-

USB_

PI4-

VDD_

DM2 USBHS BOOT2 DP1 BOOT0 PLL2

PH4

DDR_ DQ15

DDR_ DQ14

I-VSS

PB11

PA1

PF12

PA4

I-PC5

PG13

I-PC2

PDR_ VULIWE

USB_ DP2

PI5-

USB_

I-BOOT1 DM1

VSS_ PLL2

PA10

I-PI7

I-VSS

Umfanekiso ongenhla ubonisa iphakethe eliphezulu view.

I-MSv65068V5

Idatha ye-DS13875 Rev5

51/219
97

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

I-STM32MP133C/F

Ithebula 6. Izinganekwane / izifinyezo ezisetshenziswe kuthebula le-pinout

Igama

Isifinyezo

Incazelo

Igama lokuphina Uhlobo lwephini
Isakhiwo se-I / O
Amanothi Enye imisebenzi Imisebenzi eyengeziwe

Ngaphandle uma kucaciswe ngenye indlela, umsebenzi wephinikhodi phakathi nangemuva kokusetha kabusha uyafana negama lephinikhodi langempela

Iphinikhodi yokuhlinzeka

Iphinikhodi yokufaka kuphela

Iphinikhodi yokukhipha kuphela

I/O

Iphinikhodi yokokufaka/yokukhiphayo

Iphinikhodi yeleveli ye-analogi noma ekhethekile

I-FT(U/D/PD) 5 V ibekezelela i-I/O (enokudonsela phezulu okugxilile / ukudonsela phansi / okuhlelekayo ukudonsela phansi)

I-DDR

1.5 V, 1.35 V noma 1.2 VI/O ye-DDR3, DDR3L, LPDDR2/LPDDR3 interface

Isignali ye-analog

I-RST

Setha kabusha iphinikhodi ngesiphikisayo sokudonsa esibuthakathaka

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

Inketho ye-FT I/Os I2C FM+ inketho ye-Analog (ehlinzekwe i-VDDA ngengxenye ye-analog ye-I/O) inketho ye-USB (ehlinzekwa yi-VDD3V3_USBxx ngengxenye ye-USB ye-I/O) Okukhiphayo ngesivinini esiphezulu sohlobo lwe-1.8V. I-VDD (ye-SPI, i-SDMMC, i-QUADSPI, i-TRACE)

_vh(5)

Inketho enesivinini esiphezulu kakhulu yohlobo lwe-1.8V. I-VDD (ye-ETH, SPI, SDMMC, QUADSPI, TRACE)

Ngaphandle kwalapho kucaciswe ngenye indlela inothi, wonke ama-I/O asethwa njengokufakwa okuntantayo phakathi nangemuva kokusetha kabusha

Imisebenzi ekhethwe ngamarejista we-GPIOx_AFR

Imisebenzi ekhethwe ngokuqondile/enikwe amandla ngamarejista angaphandle

1. Izakhiwo ze-I/O ezihlobene kuThebula lesi-7 yilezi: FT_f, FT_fh, FT_fvh 2. Izakhiwo ze-I/O ezihlobene kuThebula lesi-7 yilezi: FT_a, FT_ha, FT_vha 3. Izakhiwo ze-I/O ezikuThebula 7 yilezi: FT_u 4. Ithebula le-FT_h, FT_h, izakhiwo ezihambisanayo: FT_fvh, FT_vh, FT_ha, FT_vha 7. Izakhiwo ze-I/O ezihlobene kuThebula 5 yilezi: FT_vh, FT_vha, FT_fvh

52/219

Idatha ye-DS13875 Rev5

I-STM32MP133C/F

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

Inombolo Yephini

Ithebula 7. STM32MP133C/F izincazelo zebhola

Imisebenzi yebhola

Iphinikhodi (umsebenzi ngemuva
setha kabusha)

Eminye imisebenzi

Imisebenzi eyengeziwe

I-LFBGA289 TFBGA289 TFBGA320
Uhlobo lwephinikhodi yesakhiwo se-I/O
Amanothi

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

I-VSS VDD

–

I-PE11

I/O FT_vh

PF5

I/O FT_h

PD3

I/O FT_f

I-PE14

I/O FT_h

VDDCPU

–

PD0

I/O FT

PH12

I/O FT_fh

PB6

I/O FT_h

–

TIM1_CH2, I2C3_SMBA,

–

DFSDM1_DATIN0, USART1_TX, UART4_TX,

I-FMC_NWAIT(ibhuthi)

–

I-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

I-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,

I-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,

I-ETH2_MDIO, FMC_NE3,

I-HDP6

–
–
–
TAMP_IN6 -
–
–

Idatha ye-DS13875 Rev5

53/219
97

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

I-STM32MP133C/F

Inombolo Yephini

Ithebula 7. STM32MP133C/F izincazelo zebhola (kuyaqhutshwa)

Imisebenzi yebhola

Iphinikhodi (umsebenzi ngemuva
setha kabusha)

Eminye imisebenzi

Imisebenzi eyengeziwe

I-LFBGA289 TFBGA289 TFBGA320
Uhlobo lwephinikhodi yesakhiwo se-I/O
Amanothi

I-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

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

–

I/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(ibhuthi)

I-TRACED9, TIM5_ETR,

–

UART2_RX, I2C3_SDA,

I-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,

USART1_RTS/USART1_DE,

–

ETH2_MII_RX_DV/ETH2_

RGMII_RX_CTL/ETH2_RMII_

CRS_DV, FMC_A7

–

I-LPTIM1_IN2, UART7_TX,

QUADSPI_BK2_IO0(ibhuthi),

–

I-ETH2_MII_CRS,

ETH1_MII_CRS, FMC_NE4,

ETH2_RGMII_CLK125

–

I-LPTIM2_IN2, I2C4_SMBA,

UART3_CTS/USART3_NSS,

SPDIFRX_IN0,

–

I-QUADSPI_BK1_IO2,

ETH2_RGMII_CLK125,

I-FMC_CLE(ibhuthi)/FMC_A16,

UART7_RX

I-DBTRGO, I2C2_SDA,

–

USART6_RX, SPDIFRX_IN3, FDCAN1_RX, FMC_NE2,

I-FMC_NCE(ibhuthi)

TIM16_CH1N, TIM4_CH3,

–

TIM8_CH3, SAI1_SCK_B, USART6_TX, TIM13_CH1,

QUADSPI_BK1_IO0(ibhuthi)

–

–
–
WKUP1
–

54/219

Idatha ye-DS13875 Rev5

I-STM32MP133C/F

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

Inombolo Yephini

Ithebula 7. STM32MP133C/F izincazelo zebhola (kuyaqhutshwa)

Imisebenzi yebhola

Iphinikhodi (umsebenzi ngemuva
setha kabusha)

Eminye imisebenzi

Imisebenzi eyengeziwe

I-LFBGA289 TFBGA289 TFBGA320
Uhlobo lwephinikhodi yesakhiwo se-I/O
Amanothi

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

I-VDDCPU PG5

–

I/O FT_h

PG15

I/O FT_h

PG10

I/O FT_h

I-VSS

–

PF10

I/O FT_h

I-VDDCORE S

–

PF6

I/O FT_vh

I-VSS VDD

–

PF9

I/O FT_h

TIM2_CH1, TIM8_ETR,

SPI5_MISO, SAI1_MCLK_B,

USART3_RTS/USART3_DE,

–

SPDIFRX_IN2,

I-QUADSPI_BK2_IO2,

I-QUADSPI_BK1_IO3,

I-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(ibhuthi),

FMC_NE3

–

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

QUADSPI_BK2_IO3, FMC_A9

TAMP_IN4
–
TAMP_IN1 -

Idatha ye-DS13875 Rev5

55/219
97

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

I-STM32MP133C/F

Inombolo Yephini

Ithebula 7. STM32MP133C/F izincazelo zebhola (kuyaqhutshwa)

Imisebenzi yebhola

Iphinikhodi (umsebenzi ngemuva
setha kabusha)

Eminye imisebenzi

Imisebenzi eyengeziwe

I-LFBGA289 TFBGA289 TFBGA320
Uhlobo lwephinikhodi yesakhiwo se-I/O
Amanothi

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

I-PE4 VDDCPU
I-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

–

I/O FT

SPI5_MISO, SAI1_D2,

DFSDM1_DATIN3,

I-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,

I-QUADSPI_BK1_NCS(ibhuthi),

ETH2_MDIO, FMC_A6

TAMP_IN7

–

SAI2_FS_B, I2C3_SDA,

SPI5_SCK,

–

QUADSPI_BK2_IO3, ETH2_MII_TX_CLK,

–

ETH1_MII_TX_CLK,

I-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

I-LPTIM2_ETR, TIM4_CH2,

TIM8_CH2, SAI1_CK1,

–

SAI1_MCLK_A, USART1_RX, QUADSPI_BK1_IO3,

–

I-QUADSPI_BK2_IO2,

FMC_A18

–

(1)

SPDIFRX_IN3,

TAMP_IN4/TAMP_

ETH1_MII_RX_ER

OUT5, WKUP2

RTC_OUT1/RTC_TS/

(1)

–

RTC_LSCO, TAMP_IN1/TAMP_

OUT2, WKUP3

56/219

Idatha ye-DS13875 Rev5

I-STM32MP133C/F

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

Inombolo Yephini

Ithebula 7. STM32MP133C/F izincazelo zebhola (kuyaqhutshwa)

Imisebenzi yebhola

Iphinikhodi (umsebenzi ngemuva
setha kabusha)

Eminye imisebenzi

Imisebenzi eyengeziwe

I-LFBGA289 TFBGA289 TFBGA320
Uhlobo lwephinikhodi yesakhiwo se-I/O
Amanothi

J3 J4 N5

I-PI2

I/O FT

(1)

I-SPDIFRX_IN2

TAMP_IN3/TAMP_ OUT4, WKUP5

K5 N4 P4

I-PI1

I/O FT

(1)

I-SPDIFRX_IN1

RTC_OUT2/RTC_ LSCO,
TAMP_IN2/TAMP_ OUT3, WKUP4

F13 L2 U13

I-VSS

–

J2 J5 L2

I-VBAT

–

L4 N3 P5

I-PI0

I/O FT

(1)

I-SPDIFRX_IN0

TAMP_IN8/TAMP_ OUT1

K2 M2

PC15OSC32_OUT

I/O

(1)

–

I-OSC32_OUT

F15 N2 U16

I-VSS

–

K1 M1 M2

PC14OSC32_IN

I/O

(1)

–

OSC32_IN

I-G7 E3 V16

I-VSS

–

I-H9 K6 N15 VDDCORE S

–

M10 M4 N9

I-VDD

–

G8 E6 W16

I-VSS

–

UART2_RX,

L2 P3 N2

PF4

I/O FT_h

–

ETH2_MII_RXD0/ETH2_ RGMII_RXD0/ETH2_RMII_

–

I-RXD0, FMC_A4

I-MCO1, SAI2_MCLK_A,

TIM8_BKIN2, I2C4_SDA,

SPI5_MISO, SAI2_CK1,

M2 J8 P2

PA8

I/O FT_fh –

USART1_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

I-PE2

I/O FT_fh

–

USART6_RTS/USART6_DE, SDIFRX_IN1,

–

ETH2_MII_RXD1/ETH2_

RGMII_RXD1/ETH2_RMII_

I-RXD1, FMC_A23

Idatha ye-DS13875 Rev5

57/219
97

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

I-STM32MP133C/F

Inombolo Yephini

Ithebula 7. STM32MP133C/F izincazelo zebhola (kuyaqhutshwa)

Imisebenzi yebhola

Iphinikhodi (umsebenzi ngemuva
setha kabusha)

Eminye imisebenzi

Imisebenzi eyengeziwe

I-LFBGA289 TFBGA289 TFBGA320
Uhlobo lwephinikhodi yesakhiwo se-I/O
Amanothi

M1 J7 P3

PF7

I/O FT_vh –

M3 R1 R2

PG11

I/O FT_vh –

L3 J6 N3

PH6

I/O FT_fh –

I-N2 P4 R1

PG1

I/O FT_vh –

M11 – N12

I-VDD

–

N1 R2 T2

I-PE6

I/O FT_vh –

I-P1 P1 T3 PH0-OSC_IN I/O FT

–

I-G9 U1 N11

I-VSS

–

I-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(ibhuthi),
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

Idatha ye-DS13875 Rev5

I-STM32MP133C/F

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

Inombolo Yephini

Ithebula 7. STM32MP133C/F izincazelo zebhola (kuyaqhutshwa)

Imisebenzi yebhola

Iphinikhodi (umsebenzi ngemuva
setha kabusha)

Eminye imisebenzi

Imisebenzi eyengeziwe

I-LFBGA289 TFBGA289 TFBGA320
Uhlobo lwephinikhodi yesakhiwo se-I/O
Amanothi

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

–

R1 U3 V3

PG2

I/O FT

–

I-MCO2, TIM8_BKIN, SAI2_MCLK_B, ETH1_MDC

T1 L6 W2

PG12

I/O FT

I-LPTIM1_IN1, SAI2_SCK_A,

SAI2_CK2,

USART6_RTS/USART6_DE,

UART3_CTS,

–

I-ETH2_PHY_INTN,

I-ETH1_PHY_INTN,

ETH2_MII_RX_DV/ETH2_

RGMII_RX_CTL/ETH2_RMII_

CRS_DV

F7 P6 R5

I-VDD

–

I-G10 E8 T1

I-VSS

–

N3 R3 V1

MCO1, USART2_CK,

I2C2_SCL, I2C3_SDA,

SPDIFRX_IN0,

PD7

I/O FT_fh

–

ETH1_MII_RX_CLK/ETH1_ RGMII_RX_CLK/ETH1_RMII_

REF_CLK,

I-QUADSPI_BK1_IO2,

FMC_NE1

P3 K7 T4

PA13

I/O FT

–

I-DBTRGO, DBTRGI, MCO1, UART4_TX

R3 R4 W3 PWR_CPU_ON O FT

–

T2 N5 Y1

PA11

I/O FT_f

I-TIM1_CH4, I2C5_SCL,

SPI2_NSS/I2S2_WS,

UART1_CTS/USART1_NSS,

–

ETH2_MII_RXD1/ETH2_

RGMII_RXD1/ETH2_RMII_

I-RXD1, ETH1_CLK,

ETH2_CLK

I-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 -
–

Idatha ye-DS13875 Rev5

59/219
97

Iphinikhodi, incazelo yephini kanye neminye imisebenzi

I-STM32MP133C/F

Inombolo Yephini

Ithebula 7. STM32MP133C/F izincazelo zebhola (kuyaqhutshwa)

Imisebenzi yebhola

Iphinikhodi (umsebenzi ngemuva
setha kabusha)

Eminye imisebenzi

Imisebenzi eyengeziwe

I-LFBGA289 TFBGA289 TFBGA320
Uhlobo lwephinikhodi yesakhiwo se-I/O
Amanothi

P4 U4

PF14(JTCK/SW CLK)

I/O

(2)

U3 L7 Y3

PA0

I/O FT_a –

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

I-N6 T3 W4

PF13

TIM2_ETR, SAI1_MCLK_B,

I/O FT_a –

DFSDM1_DATIN3,

UART2_TX, UART5_RX

I-G11 E10 P7

F10 -

–

R4 K8 AA3

P5 R5 Y4 U4 M7 Y5

I-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,

USART2_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,

I-PC0

I/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 -

I-VREF+

–

I-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

Idatha ye-DS13875 Rev5

I-STM3

Amadokhumenti / Izinsiza

I-STMicroelectronics STM32MP133C F 32-bit Arm Cortex-A7 1GHz MPU [pdf] Umhlahlandlela Womsebenzisi
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

Izithenjwa

Imaniwali yosebenzisayo

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

Imininingwane

I-Arm Cortex-A7 Subsystem

Izinkumbulo

Isilawuli se-DDR

Imibuzo Evame Ukubuzwa

Amadokhumenti / Izinsiza

Izithenjwa

Shiya amazwana

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