Lines Matching +full:data +full:- +full:lanes
10 are supported, while a pair of industry-standard QWIIC connectors supports a large and growing arra…
11 development boards. An onboard stereo audio codec offers line-level audio input and output, and tac…
12 provided by a touch-enabled 2.4in TFT display. The MAX78002 energy consumption is tracked by a powe…
14 … headers. A standard coaxial power jack serves as power input, using the included 5V, 3A wall-mount
16 bridge. A third USB connector allows access to the MAX78002 energy consumption data. Rounding out t…
17 microSD connector provides the capability for inexpensive highdensity portable data storage.
32 - MAX78002 MCU:
34 - Dual-Core, Low-Power Microcontroller
36 - Arm Cortex-M4 Processor with FPU up to 120MHz
37 - 2.5MB Flash, 64KB ROM, and 384KB SRAM
38 - Optimized Performance with 16KB Instruction Cache
39 - Optional Error Correction Code (ECC SEC-DED) for SRAM
40 - 32-Bit RISC-V Coprocessor up to 60MHz
41 - Up to 60 General-Purpose I/O Pins
42 - MIPI Camera Serial Interface 2 (MIPI CSI-2) Controller V2.1
43 - Support for Two Data Lanes
44 - 12-Bit Parallel Camera Interface
45 - I 2S Controller/Target for Digital Audio Interface
46 - Secure Digital Interface Supports SD 3.0/SDIO 3.0/eMMC 4.51
48 - Convolutional Neural Network (CNN) Accelerator
50 - Highly Optimized for Deep CNNs
51 - 2 Million 8-Bit Weight Capacity with 1-, 2-, 4-, and 8-bit Weights
52 - 1.3MB CNN Data Memory
53 - Programmable Input Image Size up to 2048 x 2048 Pixels
54 - Programmable Network Depth up to 128 Layers
55 - Programmable per Layer Network Channel Widths up to 1024 Channels
56 - 1- and 2-Dimensional Convolution Processing
57 - Capable of Processing VGA Images at 30fps
59 - Power Management for Extending Battery Life
61 - Integrated Single-Inductor Multiple-Output (SIMO) Switch-Mode Power Supply (SMPS)
62 - 2.85V to 3.6V Supply Voltage Range
63 - Support of Optional External Auxiliary CNN Power Supply
64 - Dynamic Voltage Scaling Minimizes Active Core Power Consumption
65 - 23.9μA/MHz While Loop Execution at 3.3V from Cache (CM4 only)
66 - Selectable SRAM Retention in Low-Power Modes with Real-Time Clock (RTC) Enabled
68 - Security and Integrity
70 - Available Secure Boot
71 - AES 128/192/256 Hardware Acceleration Engine
72 - True Random Number Generator (TRNG) Seed Generator
74 - Ultra-Low-Power Wireless Microcontroller
76 - Internal 100MHz Oscillator
77 - Flexible Low-Power Modes with 7.3728MHz System Clock Option
78 - 512KB Flash and 128KB SRAM (Optional ECC on One 32KB SRAM Bank)
79 - 16KB Instruction Cache
81 - Bluetooth 5.2 LE Radio
83 …- Dedicated, Ultra-Low-Power, 32-Bit RISC-V Coprocessor to Offload Timing-Critical Bluetooth Proce…
84 - Fully Open-Source Bluetooth 5.2 Stack Available
85 - Supports AoA, AoD, LE Audio, and Mesh
86 - High-Throughput (2Mbps) Mode
87 - Long-Range (125kbps and 500kbps) Modes
88 - Rx Sensitivity: -97.5dBm; Tx Power: +4.5dBm
89 - Single-Ended Antenna Connection (50Ω)
91 - Power Management Maximizes Battery Life
93 - 2.0V to 3.6V Supply Voltage Range
94 - Integrated SIMO Power Regulator
95 - Dynamic Voltage Scaling (DVS)
96 - 23.8μA/MHz Active Current at 3.0V
97 - 4.4μA at 3.0V Retention Current for 32KB
98 - Selectable SRAM Retention + RTC in Low-Power Modes
100 - Multiple Peripherals for System Control
102 - Up to Two High-Speed SPI Master/Slave
103 - Up to Three High-Speed I2C Master/Slave (3.4Mbps)
104 - Up to Four UART, One I2S Master/Slave
105 - Up to 8-Input, 10-Bit Sigma-Delta ADC 7.8ksps
106 - Up to Four Micro-Power Comparators
107 - Timers: Up to Two Four 32-Bit, Two LP, TwoWatchdog Timers
108 - 1-Wire® Master
109 - Up to Four Pulse Train (PWM) Engines
110 - RTC with Wake-Up Timer
111 - Up to 52 GPIOs
113 - Security and Integrity
115 - Available Secure Boot
116 - TRNG Seed Generator
117 - AES 128/192/256 Hardware Acceleration Engine
119 - External devices connected to the MAX78002 EVKIT:
121 - Color TFT Display
122 - Audio Stereo Codec Interface
123 - Digital Microphone
124 - A 8Mb QSPI ram
131 +-----------+------------+-------------------------------------+
134 | NVIC | on-chip | nested vector interrupt controller |
135 +-----------+------------+-------------------------------------+
136 | SYSTICK | on-chip | systick |
137 +-----------+------------+-------------------------------------+
138 | CLOCK | on-chip | clock and reset control |
139 +-----------+------------+-------------------------------------+
140 | GPIO | on-chip | gpio |
141 +-----------+------------+-------------------------------------+
142 | UART | on-chip | serial |
143 +-----------+------------+-------------------------------------+
144 | TRNG | on-chip | entropy |
145 +-----------+------------+-------------------------------------+
146 | I2C | on-chip | i2c |
147 +-----------+------------+-------------------------------------+
148 | DMA | on-chip | dma controller |
149 +-----------+------------+-------------------------------------+
150 | Watchdog | on-chip | watchdog |
151 +-----------+------------+-------------------------------------+
152 | SPI | on-chip | spi |
153 +-----------+------------+-------------------------------------+
154 | ADC | on-chip | adc |
155 +-----------+------------+-------------------------------------+
156 | Timer | on-chip | counter |
157 +-----------+------------+-------------------------------------+
158 | PWM | on-chip | pwm |
159 +-----------+------------+-------------------------------------+
160 | W1 | on-chip | one wire master |
161 +-----------+------------+-------------------------------------+
162 | Flash | on-chip | flash |
163 +-----------+------------+-------------------------------------+
168 +-----------+-------------------+------------------------------------------------------------------…
171 | JP1 | 3V3 MON | Normal operation in conjunction with JP3 jumpered 1-2 …
172 +-----------+-------------------+------------------------------------------------------------------…
174 +-----------+-------------------+------------------------------------------------------------------…
175 | JP3 | CNN MON | Normal operation in conjunction with JP6 jumpered 1-2 …
176 +-----------+-------------------+------------------------------------------------------------------…
178 +-----------+-------------------+------------------------------------------------------------------…
180 +-----------+-------------------+------------------------------------------------------------------…
182 +-----------+-------------------+------------------------------------------------------------------…
184 +-----------+-------------------+------------------------------------------------------------------…
186 +-----------+-------------------+------------------------------------------------------------------…
188 +-----------+-------------------+------------------------------------------------------------------…
190 +-----------+-------------------+------------------------------------------------------------------…
192 +-----------+-------------------+------------------------------------------------------------------…
194 +-----------+-------------------+------------------------------------------------------------------…
196 +-----------+-------------------+------------------------------------------------------------------…
198 +-----------+-------------------+------------------------------------------------------------------…
200 +-----------+-------------------+------------------------------------------------------------------…
201 | JP16 | I2C1 SDA | I2C1 DATA pull-up …
202 +-----------+-------------------+------------------------------------------------------------------…
203 | JP17 | I2C1 SCL | I2C1 CLOCK pull-up …
204 +-----------+-------------------+------------------------------------------------------------------…
206 +-----------+-------------------+------------------------------------------------------------------…
208 +-----------+-------------------+------------------------------------------------------------------…
209 | JP20 | UART0 EN | Connect/Disconnect USB-UART bridge to UART0 …
210 +-----------+-------------------+------------------------------------------------------------------…
211 | JP21 | I2C0_SDA | I2C0 DATA pull-up …
212 +-----------+-------------------+------------------------------------------------------------------…
213 | JP22 | I2C0_SCL | I2C0 CLOCK pull-up …
214 +-----------+-------------------+------------------------------------------------------------------…
215 | JP23 | UART1 EN | Connect/Disconnect USB-UART bridge to UART1 …
216 +-----------+-------------------+------------------------------------------------------------------…
218 +-----------+-------------------+------------------------------------------------------------------…
219 | JP25 | PB1 PU | Enable/Disable 100kΩ pull-up for pushbutton mode, port 2.6 …
220 +-----------+-------------------+------------------------------------------------------------------…
221 | JP26 | PB2 PU | Enable/Disable 100kΩ pull-up for pushbutton mode, port 2.7 …
222 +-----------+-------------------+------------------------------------------------------------------…
223 | JP27 | I2C2 SDA | I2C2 DATA pull-up …
224 +-----------+-------------------+------------------------------------------------------------------…
225 | JP28 | I2C2 SCL | I2C2 CLOCK pull-up …
226 +-----------+-------------------+------------------------------------------------------------------…
228 +-----------+-------------------+------------------------------------------------------------------…
230 +-----------+-------------------+------------------------------------------------------------------…
231 | JP31 | L/R SEL | Select MIC ON R/L CH, I2S microphone data stream …
232 +-----------+-------------------+------------------------------------------------------------------…
233 | JP32 | MIC-I2S I/O | External I2S/MIC data from I2S I/O / MIC header connected to I2S …
234 +-----------+-------------------+------------------------------------------------------------------…
235 | JP33 | MIC-I2S/CODEC | Onboard CODEC data / external I2S data from header connects to I2…
236 +-----------+-------------------+------------------------------------------------------------------…
237 | JP34 | I2S VDD | Select 1.8V/3.3V for external MIC and DATA I2S interface …
238 +-----------+-------------------+------------------------------------------------------------------…
239 | JP35 | I2C1 SDA | I2C1 DATA pull-up …
240 +-----------+-------------------+------------------------------------------------------------------…
241 | JP36 | I2C1 SCL | I2C1 CLOCK pull-up …
242 +-----------+-------------------+------------------------------------------------------------------…
244 +-----------+-------------------+------------------------------------------------------------------…
246 +-----------+-------------------+------------------------------------------------------------------…
248 +-----------+-------------------+------------------------------------------------------------------…
250 +-----------+-------------------+------------------------------------------------------------------…
252 +-----------+-------------------+------------------------------------------------------------------…
253 | JP42 | TFT DC | TFT data/command select connects to port 2.2 …
254 +-----------+-------------------+------------------------------------------------------------------…
256 +-----------+-------------------+------------------------------------------------------------------…
258 +-----------+-------------------+------------------------------------------------------------------…
260 +-----------+-------------------+------------------------------------------------------------------…
269 SWD port. SWD debug can be accessed through the Cortex 10-pin connector, JH8.
278 a Segger J-Link with Segger's native tooling by overriding the runner,
279 appending ``--runner jlink`` to your ``west`` command(s). The J-Link should
292 - `MAX78002EVKIT web page`_
295 …https://www.analog.com/en/resources/evaluation-hardware-and-software/evaluation-boards-kits/max780…