BOARDCON MINI3562 System On Module User Manual

Isine ndhelikake

1 Sistem BOARDCON MINI3562 Ing Modul

2 Pambuka

3 MINI3562 Pambuka

4 Panduan Desain Hardware

4.1 Referensi Sirkuit Periferal

5 TP2855 Karakteristik Listrik Produk

6 Spesifikasi

7 Pitakonan sing Sering Ditakoni (FAQ)

8 Dokumen / Sumber Daya

8.1 Referensi

9 Kiriman sing gegandhengan

Sistem BOARDCON MINI3562 Ing Modul

Pambuka

Babagan Manual iki
Manual iki dimaksudaké kanggo nyedhiyani pangguna liwatview saka Papan lan keuntungan, specifications fitur lengkap, lan tata cara nyetel-up. Isine informasi safety penting uga.

Umpan Balik lan Nganyari Manual iki
Kanggo mbantu para pelanggan ngoptimalake produk, kita terus nggawe sumber daya tambahan lan dianyari kasedhiya ing Boardcon websitus (www.boardcon.com, www.armdesigner.com). Iki kalebu manual, cathetan aplikasi, program examples, lan nganyari piranti lunak lan hardware. Priksa kanthi periodik kanggo ndeleng apa sing anyar! Nalika kita prioritizing karya ing sumber daya dianyari iki, saran saka pelanggan pengaruh nomer siji, Yen sampeyan duwe pitakonan, komentar, utawa uneg-uneg bab produk utawa project, please ora ragu-ragu hubungi kita ing support@armdesigner.com.

Warranty winates
Boardcon njamin produk iki bebas saka cacat ing materi lan workmanship kanggo periode setahun saka tanggal tuku. Sajrone periode babar pisan iki, Boardcon bakal ndandani utawa ngganti unit risak ing sesuai karo proses ing ngisor iki: Salinan invoice asli kudu klebu nalika bali unit risak kanggo Boardcon. Garansi winates iki ora nutupi kerusakan amarga cahya utawa lonjakan daya liyane, nyalahi panggunaan, penyalahgunaan, kahanan operasi sing ora normal, utawa nyoba ngowahi utawa ngowahi fungsi produk. Garansi iki diwatesi kanggo ndandani utawa ngganti unit sing rusak. Ing acara ora Boardcon bakal liable utawa tanggung jawab kanggo maksud apa mundhut utawa karusakan, kalebu nanging ora winates kanggo sembarang bathi ilang, kerusakan insidental utawa consequential, mundhut saka bisnis, utawa bathi anticipatory njedhul saka nggunakake utawa kasekengan kanggo nggunakake produk iki. Repairs digawe sawise kadaluwarsa periode babar pisan tundhuk biaya ndandani lan biaya kapal bali. Hubungi Boardcon kanggo ngatur layanan ndandani lan entuk informasi biaya ndandani.

MINI3562 Pambuka

Ringkesan
MINI3562 minangka SOM sing dioptimalake biaya sing didhukung dening prosesor Rockchip RK3562 kanthi CPU Cortex-A53 kotak-inti lan GPU ARM G52 2EE, 1 NPU TOPS. SOM RK3562 iki nawakake faktor wujud lan efisiensi daya sing luwih cilik kanggo macem-macem aplikasi target kayata pengawasan keamanan lan Manajemen Lalu Lintas. Iki dirancang khusus kanggo piranti kinerja dhuwur kayata kothak TV utawa recorder, piranti VI, piranti interaktif cerdas, komputer pribadi lan robot. Solusi mesin pangolahan lan akselerasi multimedia kanthi kinerja dhuwur bisa mbantu para pelanggan ngenalake teknologi anyar kanthi luwih cepet lan ningkatake efisiensi solusi sakabèhé.

Fitur

Mikroprosesor
- Arsitektur Quad-core 64-bit Cortex-A53 kanthi jam nganti 2.0GHz.
- Implementasi lengkap arsitektur ARM v8-A instruction set, ARM Neon Advanced SIMD (instruksi siji, macem-macem data) ndhukung kanggo media cepet lan komputasi pangolahan sinyal.
- Integrated 32KB L1 instruksi cache, 32KB L1 cache data karo 4-cara nyetel associative.
Organisasi memori
- LPDDR4 utawa LPDDR4X RAM nganti 8GB
- EMMC nganti 128GB

Boot ROM
- Ndhukung download kode sistem liwat USB OTG

Sistem sing aman
- Mesin loro cipher sing dipasang
- Ndhukung tangga kunci kanggo njamin kunci aman
- Ndhukung OS aman lan scrambling data
- Dhukungan OTP
Video Decoder/Encoder
- H.265 HEVC/MVC Utama Profile yuv420@L5.0 nganti 4096×2304@30fps.
- H.264 AVC/MVC Utama Profile yuv400/yuv420/yuv422/@L5.0 up to 1920×1080@60fps.
- VP9 Pro Kabfile0 yuv420@L5.0 nganti 4096×2304@30fps.
- H.264 Pro Dhuwurfile level 4.2, nganti 1920×1080@60fps.
- Ndhukung sumber video YUV/RGB kanthi rotasi lan pangilon.
NPU
- NPU 1TOPS sing dibangun ndhukung operasi hibrida kanthi jinis data INT4 / INT8 / INT16 / FP16. Kajaba iku, nduweni kompatibilitas sing kuat karo seri kerangka kerja, kayata TensorFlow, MXNet, PyTorch, lan Caffe, sing ngidini konversi model jaringan kanthi gampang.
Tampilan Subsistem
Dhukungan 1 saluran MIPI_DSI utawa LVDS
- MIPI DSI TX (nganti 2048×1080@60Hz)
- LVDS (nganti 800×1280@60Hz)

Antarmuka output video RGB
- Dhukungan nganti 2048 × 1080@60Hz
- Ndhukung format RGB (nganti 8 bit).
- Nganti 150MHz data rate
Antarmuka output video BT.656/BT.1120
- BT1120 nganti 1080 P/I output
- BT656 nganti 576 P/I output
MIPI CSI RX
- Nganti 4 jalur data, tingkat data maksimal 2.5Gbps saben jalur.
- Dukungan MIPI-HS, MIPI-LP mode.
- Ndhukung antarmuka siji kanthi 1 jalur jam lan 4 jalur data.
- Ndhukung Two antarmuka, saben karo 1 jam lane lan 2 data lane.
Audio 2-channel antarmuka I2S
- Ndhukung normal, kiwa-justified, tengen-justified.
- Ndhukung mode master lan slave.
- Mode I2S, PCM lan TDM ora bisa digunakake bebarengan.
1- saluran SPDIF
- Ndhukung loro nyimpen data audio 16-bit bebarengan ing siji lokasi amba 32-bit.
- Mendukung output data audio stereo format biphase.
- Ndhukung transfer PCM non-linear.

2- saluran digital DAC Analog
- 1- saluran MIC IN.
- 1-channel Headphone.
- 1- saluran Speaker OUT.
Antarmuka Multi-PHY
- Ndhukung multi-PHY karo siji PCIe2.1 lan siji USB3.0 controller
- USB 3.0 Dual-Role Device (DRD) Controller
- antarmuka PCIe2.1
Host USB 2.0
- Ndhukung siji USB 2.0 Host
Ethernet
- Ing Papan RTL8211F
- Mendukung antarmuka RMII/RGMII PHY
I2C
- Nganti 5-CH I2C
- Ndhukung mode standar lan mode cepet (nganti 400kbit / s)
1- saluran SDIO lan 1- saluran SDMMC
- Ndhukung protokol SDIO 3.0
- Dhukungan kertu SD3.0
SPI
- Nganti 3 pengontrol SPI
- Ndhukung loro output chip-pilih
- Ndhukung mode serial-master lan serial-slave, software-configurable.
UART
- Ndhukung nganti 10 UART
- UART0 karo 2 kabel kanggo debug
- Embedded loro 64byte FIFO

ADC
- Nganti 11 saluran ADC
- Resolusi 10-bit nganti 1MS/ssamptingkat ling
- SARDC0 kanggo RECOVERY
- Voltage kisaran input antarane 0V kanggo 1.8V
PWM
- Nganti 15 PWM kanthi operasi adhedhasar interupsi
- Ndhukung fasilitas wektu / counter 32bit
- Pilihan IR ing PWM3/PWM7/PWM11/PWM15

Unit daya
- PMU RK809 ing Papan
- 3.4 ~ 5.5V Input daya nganti saiki 4A
- 1.8V lan 3.3V maks 500mA output
- RTC banget kurang nganggo saiki, kurang 0.25uA ing 3V tombol Cell.

Diagram Blok MINI3562

Diagram Blok RK3562

Papan pangembangan (EM3562) Diagram Blok

Spesifikasi MINI3562

Fitur	Spesifikasi
SoC	Rockchip RK3562. Quad-core Cortex-A53 nganti 2.0GHz
GPU	ARM G52 2EE kanthi dhukungan kanggo OpenGL ES 1.1 / 2.0 / 3.2, OpenCL 2.0, Vulkan 1.1
NPU	1 TOP
VPU	4K@30fps H.265 HEVC/MVC, Dekoder Video VP9 1080p@60fps Dekoder Video H.264 AVC/MVC 1080p@60fps Encoder Video H.264
Memori	4GB/8GB LPDDR4X
Panyimpenan	8GB/16GB/32GB/64GB/128GB
Pasokan Voltage	DC 5V
Pin metu	5x UART, USB2.0 OTG, USB2.0 Host, MIPI DSI/LVDS, 2x MIPI CSI, GbE, PCIe2.1, 2x SDMMC, I2C, ADC, GPIO, I2S, PWM, lsp
Ethernet	GbE PHY (RTL8211F) ing papan inti
Lapisan PCB	8
ukuran	45 x 34 mm
Bobot	7.3 grm
Konektor	2x 100-pin, 0.4mm pitch Konektor Papan-ke-Papan (Plug)
Aplikasi	pengawasan keamanan, Manajemen Lalu Lintas, Analisis Ritel, Manufaktur & Kontrol Kualitas, lsp.

MINI3562 Ukuran PCB

Tipe Konektor

Mini3562 konektor

Plug

Dianjurake Pola PCB

Konektor Papan adhedhasar

Wadhah

Dhuwur tumpukan 1.5mm

Dianjurake Pola PCB

MINI3562 Pin Definition

Pin (J1)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
1	VCC_RTC	DAYA INPUT		1.8~3.3
2	GND			0
3	GND			0
4	RTCIC_32KOUT		(PU10K)	1.8
5	UART0_TX_M0_DEBUG	JTAG_CPU_MCU_TCK_M0	GPIO0_D1_u	3.3
6	GND			0
7	UART0_RX_M0_DEBUG	JTAG_CPU_MCU_TMS_M0	GPIO0_D0_u	3.3
8	CAM_RST1_L_1V8	I2S1_SDO0_M1/CAM_CLK3 _OUT/UART8_RTSN_M0/ SPI0_CLK_M1/PWM13_M1	GPIO3_B5_d	1.8
9	PCIE20_PERSTn_M1	PDM_SDI1_M0	GPIO3_B0_d	3.3
10	CAM_PDN1_L_1V8	I2S1_SDI0_M1/ISP_FLASH _TRIGIN/UART3_RTSN_M1	GPIO3_C1_d	1.8
11	PCIE20_WAKEn_M1	PDM_SDI2_M0/UART5_RX _M1	GPIO3_A7_d	3.3
12	CAM_RST0_L_1V8	I2S1_LRCK_M1/CAM_CLK2	GPIO3_B4_d	1.8

Pin (J1)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
		_OUT/UART8_CTSN_M0/S PI0_MOSI_M1/PWM12_M1
13	PCIE20_CLKREQn_M1	PDM_CLK0_M0/UART5_TX _M1	GPIO3_A6_d	3.3
14	I2C5_SDA_M0_1V8	ISP_FLASH_TRIGOUT/UAR T9_RX_M	GPIO3_C3_d	1.8
15	TP_RST_L	SPI0_CSN1_M0/PWM4_M0/ CPU_AVS/SPDIF_TX_M1	GPIO0_B7_d	3.3
16	I2C5_SCL_M0_1V8	ISP_PRELIGHT_TRIGOUT/ UART9_TX_M1	GPIO3_C2_d	1.8
17	I2C2_SDA_TP	I2C2_SDA_M0/PCIE20_WA KEN_M0	GPIO0_B6_d	3.3
18	I2C4_SDA_M0_1V8	I2S1_SDO2_M1/I2S1_SDI2_ M1/UART3_TX_M1/SPI0_C SN0_M1/I2C4_SDA_M0	GPIO3_B7_d	1.8
19	I2C2_SCL_TP	I2C2_SCL_M0/PCIE20_PER STN_M0	GPIO0_B5_d	3.3
20	I2C4_SCL_M0_1V8	I2S1_SDO1_M1/I2S1_SDI3_ M1/UART3_CTSN_M1/SPI0 _CSN1_M1/I2C4_SCL_M0	GPIO3_B6_d	1.8
21	TP_INT_L	UART2_RTSN_M0/PWM0_ M0/SPI0_CLK_M0	GPIO0_C3_d	3.3
22	CAM_PDN0_L_1V8	I2S1_SDO3_M1/I2S1_SDI1_ M1/UART3_RX_M1/SPI0_MI SO_M1	GPIO3_C0_d	1.8
23	GND			0
24	GND			0
25	LCDC_HSYNC	I2S1_SDO1_M0/UART9_CT SN_M0/SPI2_CSN1_M0/I2C 1_SCL_M1/UART3_TX_M0	GPIO4_B4_d	3.3
26	CAM_CLK1_OUT_1V8	I2S1_SCLK_M1/UART8_RX _M0	GPIO3_B3_d	1.8
27	LCDC_VSYNC	I2S1_SDO2_M0/UART9_RT SN_M0/SPI2_CSN0_M0/I2C 1_SDA_M1/UART3_RX_M0	GPIO4_B5_d	3.3
28	GND			0
29	LCDC_DEN	I2S1_SDO3_M0/SPI2_CLK_ M0/UART3_CTSN_M0	GPIO4_B6_d	3.3
30	CAM_CLK0_OUT_1V8	I2S1_MCLK_M1/UART8_TX _M0	GPIO3_B2_d	1.8
31	UART4_TX_M0/LCD_D7	I2S1_SDI0_M0	GPIO3_D0_d	3.3

Pin (J1)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
32	GND			0
33	UART7_RX_M0/LCD_D6	I2S1_SDO0_M0	GPIO3_C7_d	3.3
34	UART7_RTS_M0/LCD_D12	I2S1_SDI3_M0/SPI2_MOSI_ M0/I2C2_SDA_M1	GPIO3_D3_d	3.3
35	UART4_RTS_M0/LCD_D5	I2S1_LRCK_M0/PWM15_M 0	GPIO3_C6_d	3.3
36	UART7_CTS_M0/LCD_D11	I2S1_SDI2_M0/SPI2_MISO_ M0/I2C2_SCL_M1	GPIO3_D2_d	3.3
37	UART4_CTS_M0/LCD_D4	I2S1_SCLK_M0/PWM14_M0	GPIO3_C5_d	3.3
38	UART4_RX_M0/LCD_D10	I2S1_SDI1_M0/UART3_RTS N_M0	GPIO3_D1_d	3.3
39	UART7_TX_M0/LCD_D3	I2S1_MCLK_M0	GPIO3_C4_d	3.3
40	GND			0
41	PHY0_LED1/CFG_LDO0/LC D_D21（standar: PHY0_LED1）	PWM12_M0/I2S2_LRCK_M 1	GPIO4_A1_d	3.3
42	LCDC_CLK	PDM_CLK0_M1/CAM_CLK1 _OUT_M1	GPIO4_B7_d	3.3
43	PHY0_LED2/CFG_LDO1/LC D_D9（standar: PHY0_LED2）	PDM_CLK0_M1/CAM_CLK1 _OUT_M1	GPIO4_B7_d	3.3
44	GND			0
45	GND			0
46	PDM_SDI1/LCD_D16	UART1_CTSN_M1/PDM_SD I1_M1/UART6_RX_M1	GPIO4_B0_d	3.3
47	PHY0_MDI0+/LCD_D22 (standar: PHY0_MDI0+)	SPI1_MOSI_M0/UART6_CT SN_M1	GPIO4_A2_d	3.3
48	GND			0
49	PHY0_MDI0-/LCD_D23 (standar: PHY0_MDI0-)	SPI1_MISO_M0/UART6_RT SN_M1	GPIO4_A3_d	3.3
50	ETH_CLK_25M/LCD_D17 (standar: ETH_CLK_25M)	PDM_CLK1_M1/CAM_CLK0 _OUT_M1/I2S2_SCLK_M1	GPIO4_B1_d	3.3
51	PHY0_MDI1+/LCD_D13 (standar: PHY0_MDI1+)	UART8_TX_M1/I2S2_SDI_ M1	GPIO3_D4_d	3.3
52	LCD_D19	UART8_CTSN_M1/SPI1_CS N0_M0	GPIO3_D7_d	3.3
53	PHY0_MDI1-/LCD_D14 (standar: PHY0_MDI1-)	UART8_RX_M1/I2S2_SDO_ M1	GPIO3_D5_d	3.3
54	LCD_D20	UART8_RTSN_M1/SPI1_CS N1_M0	GPIO4_A0_d	3.3
55	PHY0_MDI2+/LCD_D18	UART9_RX_M0	GPIO4_B3_d	3.3

Pin (J1)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
	(standar: PHY0_MDI2+)
56	LCD_D15	SPI1_CLK_M0/I2S2_MCLK_ M1	GPIO3_D6_d	3.3
57	PHY0_MDI2-/LCD_D2 (standar: PHY0_MDI2-)	UART9_TX_M0	GPIO4_B2_d	3.3
58	GND			0
59	PHY0_MDI3+
60	MIPI_CSI_RX1_CLK1P			INPUT
61	PHY0_MDI3-
62	MIPI_CSI_RX1_CLK1N			INPUT
63	GND			0
64	MIPI_CSI_RX1_D3P			INPUT
65	MIPI_CSI_RX1_CLK0P			INPUT
66	MIPI_CSI_RX1_D3N			INPUT
67	MIPI_CSI_RX1_CLK0N			INPUT
68	MIPI_CSI_RX1_D2P			INPUT
69	MIPI_CSI_RX1_D1P			INPUT
70	MIPI_CSI_RX1_D2N			INPUT
71	MIPI_CSI_RX1_D1N			INPUT
72	GND			0
73	MIPI_CSI_RX1_D0P			INPUT
74	MIPI_CSI_RX0_CLK1P			INPUT
75	MIPI_CSI_RX1_D0N			INPUT
76	MIPI_CSI_RX0_CLK1N			INPUT
77	GND			0
78	MIPI_CSI_RX0_D3P			INPUT
79	MIPI_CSI_RX0_CLK0P			INPUT
80	MIPI_CSI_RX0_D3N			INPUT
81	MIPI_CSI_RX0_CLK0N			INPUT
82	MIPI_CSI_RX0_D2P			INPUT
83	MIPI_CSI_RX0_D1P			INPUT
84	MIPI_CSI_RX0_D2N			INPUT
85	MIPI_CSI_RX0_D1N			INPUT
86	GND			0
87	MIPI_CSI_RX0_D0P			INPUT
88	MIPI_DSI_TX_CLKP/LVDS_ TX_CLKP			OUTPUT
89	MIPI_CSI_RX0_D0N			OUTPUT
90	MIPI_DSI_TX_CLKN/LVDS_ TX_CLKN			OUTPUT
91	GND			0

Pin (J1)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
92	MIPI_DSI_TX_D1P/LVDS_T X_D1P			OUTPUT
93	MIPI_DSI_TX_D3P/LVDS_T X_D3P			OUTPUT
94	MIPI_DSI_TX_D1N/LVDS_T X_D1N			OUTPUT
95	MIPI_DSI_TX_D3N/LVDS_T X_D3N			OUTPUT
96	MIPI_DSI_TX_D0P/LVDS_T X_D0P			OUTPUT
97	MIPI_DSI_TX_D2P/LVDS_T X_D2P			OUTPUT
98	MIPI_DSI_TX_D0N/LVDS_T X_D0N			OUTPUT
99	MIPI_DSI_TX_D2N/LVDS_T X_D2N			OUTPUT
100	GND			0

Pin (J2)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
1	SARDC0_IN4			1.8
2	VCC3V3_SYS	POWER OUTPUT		3.3
3	SARDC0_IN4			1.8
4	VCC3V3_SYS	POWER OUTPUT		3.3
5	SARDC0_IN6			1.8
6	GND			0
7	SARDC0_IN7			1.8
8	PCIE_PWREN_H	I2C3_SDA_M0/UART2_RX_1/ SPDIF_TX_M0/UART5_RTSN _M1	GPIO3_A1_d	3.3
9	SARADC0_IN1_KEY/REC LUWIH		(PU10K)	1.8
10	4G_DISABLE_L	I2C3_SCL_M0/UART2_TX_M 1/PDM_SDI3_M0/UART5_CT SN_M1	GPIO3_A0_d	3.3
11	SARDC0_IN2			1.8
12	WIFI_WAKE_HOST_H	I2C1_SDA_M0	GPIO0_B4_d	3.3
13	GND			0
14	WIFI_REG_ON_H	I2C1_SCL_M0	GPIO0_B3_d	3.3
15	SARDC1_IN0			1.8

Pin (J2)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
16	HOST_WAKE_BT_H	UART6_RX_M0	GPIO0_C7_d	3.3
17	SARDC1_IN1			1.8
18	BT_WAKE_HOST_H	UART6_TX_M0	GPIO0_C6_d	3.3
19	SARDC1_IN2			1.8
20	BT_REG_ON_H	UART6_RTSN_M0/PWM2_M0 /SPI0_MISO_M0	GPIO0_C5_d	3.3
21	SARDC1_IN3			1.8
22	USBCC_INT_L	PCIE20_CLKREQN_M0	GPIO0_A6_d	3.3
23	SARDC1_IN5			1.8
24	HALL_INT_L	UART6_CTSN_M0/PWM1_M0 /SPI0_MOSI_M0	GPIO0_C4_d	3.3
25	GND			0
26	LCD_BL_PWM	UART2_CTSN_M0/PWM5_M0 /SPI0_CSN0_M0	GPIO0_C2_d	3.3
27	SDMMC0_CLK	TEST_CLK_OUT/UART5_TX_ M0/ SPI1_CLK_M1	GPIO1_C0_d	3.3
28	LCD_RST_L	REF_CLK_OUT	GPIO0_A0_d	3.3
29	GND			0
30	LCD_PWREN_H	CLK_32K_IN/CLK0_32K_OUT /PCIE20_BUTTONRSTN	GPIO0_B0_d	3.3
31	SDMMC0_D3	JTAG_CPU_MCU_TMS_M1/ UART5_RTSN_M0/SPI1_CSN 0_M1/PWM11_M0/DSM_AUD _RN	GPIO1_B6_u	3.3
32	USB30_OTG0_VBUSDET			3.3
33	SDMMC0_D2	JTAG_CPU_MCU_TCK_M1/ UART5_CTSN_M0/SPI1_CSN 1_M1/PWM10_M0/DSM_AUD _RP	GPIO1_B5_u	3.3
34	SDMMC0_DET_L	I2C4_SDA_M1	GPIO0_A4_u	3.3
35	SDMMC0_D1	UART0_TX_M1/UART7_TX_ M1/SPI1_MISO_M1/DSM_AU D_LN	GPIO1_B4_u	3.3
36	GND			0
37	SDMMC0_D0	UART0_RX_M1/UART7_RX_ M1/SPI1_MOSI_M1/DSM_AU D_LP	GPIO1_B3_u	3.3
38	RMII_MDIO_1V8	I2C5_SDA_M1/ PWM3_M1	GPIO1_D0_d	1.8
39	SDMMC0_CMD	UART5_RX_M0/SPDIF_TX_M 2	GPIO1_B7_u	3.3
40	RMII_MDC_1V8	I2C5_SCL_M1/ PWM2_M1	GPIO1_C7_d	1.8

Pin (J2)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
41	GND			0
42	GPIO2_A1_d_1V8	I2S2_MCLK_M0/ETH_CLK_2 5M_OUT_M1/I2S0_SDO3_M1 /SPI2_CLK_M1/CLK1_32K_O UT	GPIO2_A1_d	1.8
43	I2S2_LRCK/RMII_CRS_D V_1V8	UART4_TX_M1/SPI2_CSN0_ M1	GPIO1_D6_d	1.8
44	GND			0
45	I2S2_SDO/RMII_RXD1_1V 8	UART4_RTSN_M1/SPI2_MOS I_M1/PWM14_M1	GPIO1_D7_d	1.8
46	I2S2_SCLK/RMII_CLK_1V 8	UART4_RX_M1/SPI2_CSN1_ M1	GPIO1_D5_d	1.8
47	UART1_CTS/RMII_RXD0_ 1V8	PWM7_M1	GPIO1_D4_d	1.8
48	GND			0
49	I2S2_SDI/RMII_RXER_1V 8	UART4_CTSN_M1/SPI2_MIS O_M1/PWM15_M1	GPIO2_A0_d	1.8
50	USB30_OTG0_ID
51	GND			0
52	UART1_TX/RMII_TXD1_1 V8	PWM5_M1	GPIO1_D2_d	1.8
53	SDIO_CLK/G_RCK_1V8	PWM1_M1	GPIO1_C6_d	1.8
54	UART1_RX/RMII_TXD0_1 V8	PWM4_M1	GPIO1_D1_d	1.8
55	SDIO_CMD/G_RD3_1V8	PWM0_M1	GPIO1_C5_d	1.8
56	UART1_RTS/RMII_TXEN_ 1V8	PWM6_M1	GPIO1_D3_d	1.8
57	SDIO_D3/G_RD2_1V8	PWM11_M1	GPIO1_C4_d	1.8
58	GND			0
59	SDIO_D2/G_TCK_1V8	PWM10_M1	GPIO1_C3_d	1.8
60	PCIE20_RXN	USB30_OTG0_SSRXN
61	SDIO_D1/G_TD3_1V8	PWM9_M1	GPIO1_C2_d	1.8
62	PCIE20_RXP	USB30_OTG0_SSRXP
63	SDIO_D0/G_TD2_1V8	PWM8_M1	GPIO1_C1_d	1.8
64	GND			0
65	GND			0
66	PCIE20_TXN	USB30_OTG0_SSTXN
67	PCIE20_REFCLKP
68	PCIE20_TXP	USB30_OTG0_SSTXP
69	PCIE20_REFCLKN
70	GND			0

Pin (J2)	Sinyal	Katrangan utawa fungsi	Serial GPIO	IO Voltage (V)
71	GND			0
72	USB20_HOST1_DP
73	SPKP_OUT			OUTPUT
74	USB20_HOST1_DM
75	SPKN_OUT			OUTPUT
76	USB30_OTG0_DP
77	HPL_OUT			OUTPUT
78	USB30_OTG0_DM
79	HP_SNS			0
80	VCC_1V8	POWER OUTPUT		1.8
81	HPR_OUT			OUTPUT
82	VDD_LDO9	POWER OUTPUT		0.6~3.4
83	GND			0
84	VCCSYS_SW1	POWER OUTPUT		5
85	MIC2_IN			INPUT
86	VCCSYS_SW1	POWER OUTPUT		5
87	MIC1_IN			INPUT
88	GND			0
89	GND			0
90	GND			0
91	RESET		(PU10K)	1.8
92	PWEN		(PU10K)	5
93	PMIC_PWRON			5
94	VCC_SYS	DAYA INPUT		5
95	VCC_SYS			5
96	VCC_SYS			5
97	VCC_SYS	DAYA INPUT		5
98	VCC_SYS			5
99	VCC_SYS			5
100	VCC_SYS			5

Papan Pangembangan (EM3562)

Panduan Desain Hardware

Referensi Sirkuit Periferal

Daya njaba

BOARDCON-MINI3562-System-On-Module-FIG-9

BOARDCON-MINI3562-System-On-Module-FIG-10

Sirkuit Debug

BOARDCON-MINI3562-System-On-Module-FIG-11

Sirkuit IR

BOARDCON-MINI3562-System-On-Module-FIG-12

SD Sirkuit

BOARDCON-MINI3562-System-On-Module-FIG-13

WIFI/BT Circuit

BOARDCON-MINI3562-System-On-Module-FIG-14

WIFI/BT Circuit

BOARDCON-MINI3562-System-On-Module-FIG-15

Sirkuit PCIE

BOARDCON-MINI3562-System-On-Module-FIG-16

Sirkuit ETH

BOARDCON-MINI3562-System-On-Module-FIG-17

Sirkuit AHD

BOARDCON-MINI3562-System-On-Module-FIG-18

TP2855 Karakteristik Produk Listrik

Dissipation lan Suhu

Simbol	Paramèter	Min	Tipe	Maks	Unit
VCC_SYS	Sistem IO Voltage	3.4V	5	5.5	V
Isys_in	VCC_SYS input Saiki			3000	mA
VCC_RTC	RTC Voltage	1.8	3	3.4	V
Iirtc	input RTC Saiki		0.25	8	uA
I3v3_metu	VCC_3V3 output Saiki			500	mA

Simbol	Paramèter	Min	Tipe	Maks	Unit
I1v8_metu	VCC_1V8 output Saiki			500	mA
VCCSYS_SW1	output Saiki			1500	mA
VDD_LDO9	0.6V ~ 3.4V output Saiki			400	mA
Ta	Suhu operasi	0		70	°C
Tstg	Suhu panyimpenan	-40		85	°C

Reliabilitas Test

Tes Operasi Suhu Dhuwur
Isine	Operasi 8h ing suhu dhuwur	55 ° C ± 2 ° C
asil	TBD

Tes Urip Operasi
Isine	Operasi ing kamar	120h
asil	TBD

Spesifikasi

Ndhukung 1 saluran MIPI_DSI utawa LVDS
Antarmuka output video RGB
Antarmuka output video BT.656/BT.1120

2-saluran antarmuka I2S
1-saluran SPDIF
Analog DAC digital 2 saluran

Pitakonan sing Sering Ditakoni (FAQ)

P: Kepiye carane nganyari firmware MINI3562?
A: Kanggo nganyari perangkat kukuh, bukak kita websitus ing www.armdesigner.com kanggo nganyari lan instruksi paling anyar.

P: Apa resolusi maksimum sing didhukung dening antarmuka output video RGB?
A: Antarmuka output video RGB ndhukung resolusi nganti 2048 × 1080@60Hz.

Dokumen / Sumber Daya

Sistem BOARDCON MINI3562 Ing Modul [pdf] Manual pangguna
MINI3562, MINI3562 System On Module, System On Module, Module

Referensi

Manual pangguna