位置:CYT4DN > CYT4DN详情
CYT4DN中文资料
CYT4DN数据手册规格书PDF详情
Features
• Graphics subsystem
- Supports 2D and 2.5D (perspective warping, 3D effects) graphics rendering
- Up to 30-bit color resolution (RGB)
- 4096 KB of embedded video RAM memory (VRAM)
- Up to two video output interfaces supporting two displays from
• Parallel RGB (max display size: 1600 × 600 at 80 MHz)
• FPD-link single (max display size: 1920 × 720 at 110 MHz)
• FPD-link dual (max display size: 2880 × 1080 at 220 MHz)
- One Capture engine for video input processing for ITU 656 or parallel RGB/YUV or MIPI CSI-2 input
• ITU656 (standard camera capture: up to 800 × 480)
• RGB (max capture size 1600 × 600 at 80 MHz) or
• Two-/four-lane MIPI CSI-2 interface (max capture size: 1920 × 720 for two lanes at 110 MHz, 2880 × 1080 for
four lanes at 220 MHz)
- Display warping on-the-fly for HUD applications
- Direct video feed through from capture to display interface with graphics overlay
- Composition engine for scene composition from display layers
- Display engine for video timing generation and display functions
- Drawing engine for acceleration of vector graphics rendering
- Command sequencer for setup and control of the rendering process
- Supports graphics rendering without frame buffers (on-the-fly to both displays)
- Dual-channel FPD-Link interface for up to Wide-HD resolution video output
- JPEG Decoder
• Decodes JPEG images of various formats into pixel data with conformance to a subset of standard
ISO/IEC10918-1
• Color spaces supporting RGB/YUV/Grayscale
• Supports YUV sub-sampling 4:4:4/4:2:2/4:1:1/4:2:0
• Image size between 1×1 to 16384×16384 pixels
• Sound subsystem
- Four time-division multiplexing (TDM) interfaces
- Two pulse-code modulation-pulse width modulation (PCM-PWM) interfaces
- Up to five sound generator (SG) interfaces
- Two PCM Audio stream mixers with five input streams
- One audio digital-to-analog converter (DAC)
• CPU subsystem
- Two 320-MHz 32-bit Arm® Cortex®-M7 CPUs, each with
• Single-cycle multiply
• Single/double-precision floating point unit (FPU)
• 16-KB data cache, 16-KB instruction cache
• Memory protection unit (MPU)
• 64-KB instruction and 64-KB data Tightly-Coupled Memories (TCM)
- One 100-MHz 32-bit Arm® Cortex®-M0+ CPU with
• Single-cycle multiply
• Memory protection unit
- Inter-processor communication in hardware
- Three DMA controllers
• Peripheral DMA controller #0 (P-DMA0) with 76 channels
• Peripheral DMA controller #1 (P-DMA1) with 84 channels
• Memory DMA (AHB) controller (M-DMA0) with 8 channels
• Memory DMA (AXI) controller (M-DMA1) with 4 channels
• Integrated memories
- 6336-KB code-flash with an additional 128-KB of work-flash
• Read-While-Write (RWW) allows updating the code-flash/work-flash while executing from it
• Single- and dual-bank modes (specifically for Firmware update Over The Air [FOTA])
• Flash programming through SWD/JTAG interface
- 640-KB of SRAM with selectable retention granularity
• Crypto engine[1]
- Supports Enhanced Secure Hardware Extension (eSHE) and Hardware Security Module (HSM)
- Secure boot and authentication
• Using digital signature verification[1]
• Using fast secure boot
- AES: 128-bit blocks, 128-/192-/256-bit keys
- 3DES[1]: 64-bit blocks, 64-bit key
- Vector unit[1] supporting asymmetric key cryptography such as Rivest-Shamir-Adleman (RSA) and Elliptic
Curve (ECC)
- SHA-1/2/3[1]: SHA-512, SHA-256, SHA-160 with variable length input data
- CRC[1]: supports CCITT CRC16 and IEEE-802.3 CRC32
- True random number generator (TRNG) and pseudo random number generator (PRNG)
- Galois/Counter Mode (GCM)
• Functional safety for ASIL-B
- Memory protection unit (MPU)
- Shared memory protection unit (SMPU)
- Peripheral protection unit (PPU)
- Watchdog timer (WDT)
- Multi-counter watchdog timer (MCWDT)
- Low-voltage detector (LVD)
- Brown-out detection (BOD)
- Over-voltage detection (OVD)
- Overcurrent detection (OCD)
- Clock supervisor (CSV)
• Supported in all power modes
- Hardware error correction (SECDED ECC) on all safety-critical memories (SRAM, flash, TCM)
• Low-power 2.7-V to 5.5-V operation
- Low-power Active, Sleep, Low-power Sleep, DeepSleep, and Hibernate modes for fine-grained power
management
- Configurable options for robust BOD
• Two threshold levels (2.7 V and 3.0 V) for BOD on VDDD and VDDA_ADC
• One threshold level (1.1 V) for BOD on VCCD
• Wakeup support
- Up to 10 pins to wakeup from Hibernate mode
- Wakeup recognition bit for each wakeup source
- Up to 81 GPIO pins to wakeup from DeepSleep mode
- Event Generator, SCB, Watchdog Timer, RTC alarms to wake from DeepSleep modes
• Clocks
- Internal main oscillator (IMO)
- Internal low-speed oscillator (ILO)
- External crystal oscillator (ECO)
- Watch crystal oscillator (WCO)
- Phase-locked loop (PLL)
- Frequency-locked loop (FLL)
- Low-power external crystal oscillator (LPECO)
• Communication interfaces
- Up to four CAN FD channels
• Increased data rate (up to 8 Mbps) compared to classic CAN, limited by physical layer topology and
transceivers
• Compliant to ISO 11898-1:2015
• Supports all the requirements of Bosch CAN FD Specification V1.0 non-ISO CAN FD
• ISO 16845:2015 certificate available
- Up to 12 runtime-reconfigurable SCB (serial communication block) channels, each configurable as I2C, SPI,
or UART
- Up to two independent LIN channels
• LIN protocol compliant with ISO 17987
- Up to two CXPI channels with data rate up to 20 kbps
- 10/100/1000 Mbps Ethernet MAC interface conforming to IEEE-802.3az
• Supports the following PHY interfaces:
Media-independent interface (MII)
Reduced media-independent interface (RMII)
Reduced gigabit media-independent interface (RGMII)
• Compliant with IEEE-802.1AS, IEEE-802.1Qav, and IEEE-802.1Qbb for audio video bridging (AVB)
• Compliant with IEEE-1588 precision time protocol (PTP)
• Serial memory interface (SMIF)
- Two SPIs (single, dual, quad, or octal), xSPI interface
- On-the-fly encryption and decryption
- Execute-In-Place (XIP) from external memory
• Timers
- Up to 50 16-bit and 32 32-bit Timer/Counter Pulse-Width modulator (TCPWM) blocks for regular operations
• Up to 12 16-bit counters optimized for motor-control operations (Equivalent to 6 stepper motor-control
[SMC] channels with ZPD and slew rate control capability)
• Supports timer, capture, quadrature decoding, pulse-width modulation (PWM), PWM with dead time (PWM_
DT), pseudo-random PWM (PWM_PR), and shift-register (SR) modes
- Up to 16 Event Generation (EVTGEN) timers supporting cyclic wakeup from DeepSleep
• Events trigger a specific device operation (such as execution of an interrupt handler, a SAR ADC conversion,
and so on)
• Real time clock (RTC)
- Year/Month/Date, Day-of-week, Hour:Minute:Second fields
- 12- and 24-hour formats
- Automatic leap-year correction
• I/O
- Up to 168 programmable I/Os
- Six I/O types
• GPIO Standard (GPIO_STD)
• GPIO Enhanced (GPIO_ENH)
• GPIO Stepper Motor Control (GPIO_SMC)
• High-Speed I/O Standard (HSIO_STD)
• High-Speed I/O Standard with Low Noise (HSIO_STDLN)
• High-Speed I/O Enhanced (HSIO_ENH)
• High-Speed I/O Enhanced Differential (HSIO_ENH_PDIFF)
• Power
- Regulators
• Generates 1.1-V nominal core supply from a 2.7-V to 5.5-V input supply
• Two regulators:
DeepSleep
Core internal
- PMIC control module
• Programmable analog
- One SAR A/D converter
• Each ADC supports 32 logical channels, with 48 external channels. Any external channel can be connected
to any logical channel in the SAR.
• 12-bit resolution and sampling rates up to 1 Msps
- The ADC also supports six internal analog inputs like
• Bandgap reference to establish absolute voltage levels
• Calibrated diode for junction temperature calculations
• Two AMUXBUS inputs and two direct connections to monitor supply levels
- ADC supports addressing of external multiplexers
- ADC has a sequencer supporting autonomous scanning of configured channels
• Smart I/O
- One smart I/O block, which can perform Boolean operations on signals going to and from I/Os
- Up to eight I/Os (GPIO_STD) supported
• Debug interface
- JTAG controller and interface compliant to IEEE-1149.1-2001
- Arm® SWD (serial wire debug) port
- Supports Arm® Embedded Trace Macrocell (ETM) Trace
• Data trace using SWD
• Instruction and data trace using JTAG
• Compatible with industry-standard tools
- GHS MULTI or IAR EWARM for code development and debugging
• Packages
- 327-BGA, 17 × 17 × 1.70 mm
供应商 | 型号 | 品牌 | 批号 | 封装 | 库存 | 备注 | 价格 |
---|---|---|---|---|---|---|---|
Infineon Technologies |
2年内批号 |
327-BGA |
4800 |
只供原装进口公司现货+可订货 |
|||
INFINEON |
23+ |
PG-LFBGA-327 |
14253 |
原包装原标现货,假一罚十, |
|||
INFINEON |
23+ |
K-W |
8100 |
只有原装,请来电咨询 |
|||
Infineon |
23+ |
PG-LFBGA-327 |
15500 |
英飞凌优势渠道全系列在售 |
|||
INFINEON/英飞凌 |
23+ |
PG-LFBGA-327 |
5000 |
原装现货 |
|||
CYPRESS/赛普拉斯 |
23+ |
20000 |
原装现货,可追溯原厂渠道 |
||||
CYPRESS |
2023 |
N/N |
9900 |
全新、原装正品,假一赔十 |
|||
24+ |
N/A |
46000 |
一级代理-主营优势-实惠价格-不悔选择 |
||||
CYT |
1742+ |
SOT23-5 |
98215 |
只要网上有绝对有货!只做原装正品! |
|||
CYT |
24+ |
SOT23-5 |
36000 |
原装现货 |
CYT4DN 资料下载更多...
CYT4DN 芯片相关型号
- 70V7599
- 7203L50TPG
- 7204L12TPG
- 7204L20TPG
- 8D0U21F17AA
- 8D0U21F17AN
- 8D0U21F17BN
- 8D0U21F19AA
- 8D0U21F19AN
- 8D0U21F19BN
- 8D0U21F21AA
- 8D0U21F21AN
- 8D0U21W11AA
- 8D0U21W11AN
- 8D0U21W11BA
- 8D0U21W11BN
- C870CF14300AA4X
- C870CF14300AA5J
- C870CF14300AA5K
- C870CF14300AA5R
- C870CF14300AA5X
- CDM814
- CNM8L85-2P071-S01
- CNM8L85-2S071-S01
- DSM-T-25-270-CC-A-B
- JL-D2R
- MS00A16-32PW
- MS00A16-32PX
- SF-TC240T-9370A-T
- UF16FC
Datasheet数据表PDF页码索引
- P1
- P2
- P3
- P4
- P5
- P6
- P7
- P8
- P9
- P10
- P11
- P12
- P13
- P14
- P15
- P16
- P17
- P18
- P19
- P20
- P21
- P22
- P23
- P24
- P25
- P26
- P27
- P28
- P29
- P30
- P31
- P32
- P33
- P34
- P35
- P36
- P37
- P38
- P39
- P40
- P41
- P42
- P43
- P44
- P45
- P46
- P47
- P48
- P49
- P50
- P51
- P52
- P53
- P54
- P55
- P56
- P57
- P58
- P59
- P60
- P61
- P62
- P63
- P64
- P65
- P66
- P67
- P68
- P69
- P70
- P71
- P72
- P73
- P74
- P75
- P76
- P77
- P78
- P79
- P80
- P81
- P82
- P83
- P84
Infineon Technologies AG 英飞凌科技股份公司
英飞凌科技股份公司(Infineon Technologies AG)是一家全球领先的半导体制造商,成立于1999年,总部位于德国。英飞凌专注于提供高效能和高可靠性的半导体解决方案,广泛应用于汽车、工业、通信以及消费电子等多个领域。公司的产品涵盖了功率半导体、微控制器、安全芯片和传感器等多种类型,致力于满足客户在能效、节能和安全方面的需求。 在汽车电子领域,英飞凌是重要的市场参与者,提供各种关键的解决方案,例如用于电动汽车和混合动力汽车的功率管理系统。此外,英飞凌还专注于提高工业自动化和智能家居系统的性能,通过其先进的传感器和控制技术促进智能制造和数字化转型。 公司在全球范围内拥有多个研发和制