Lines Matching full:-
6 of the MAX32672 microcontroller, which is a small, high-reliability, ultra-low power,
7 32-bit microcontroller. The MAX32672 is a secure and cost-effective solution
8 for motion/motor control, industrial sensors, and battery-powered medical devices and offers legacy
9 designs an easy, cost-optimal upgrade path from 8-bit or 16-bit microcontrollers.
16 - MAX32672 MCU:
18 - High-Efficiency Microcontroller for Low-Power High-Reliability Devices
20 - Arm Cortex-M4 Processor with FPU up to 100MHz
21 - 1MB Dual-Bank Flash with Error Correction
22 - 200KB SRAM (160KB with ECC Enabled), Optionally Preserved in Lowest Power Modes
23 - EEPROM Emulation on Flash
24 - 16KB Unified Cache with ECC
25 - Resource Protection Unit (RPU) and MemoryProtection Unit (MPU)
26 - Dual- or Single-Supply Operation, 1.7V to 3.6V
27 - Wide Operating Temperature: -40°C to +105°C
29 - Flexible Clocking Schemes
31 - Internal High-Speed 100MHz Oscillator
32 - Internal Low-Power 7.3728MHz and Ultra-Low-Power 80kHz Oscillators
33 - 16MHz–32MHz Oscillator, 32.768kHz Oscillator(External Crystal Required)
34 - External Clock Input for CPU, LPUART, LPTMR
36 - Power Management Maximizes Uptime for Battery Applications
38 - 59.8μA/MHz ACTIVE at 0.9V up to 12MHz(CoreMark®)
39 - 56.6μA/MHz ACTIVE at 1.1V up to 100MHz(While(1))
40 - 3.09μA Full Memory Retention Power in BACKUPMode at VDD = 1.8V
41 - 350nA Ultra-Low-Power RTC at
42 - Wake from LPUART or LPTMR
44 - Optimal Peripheral Mix Provides Platform Scalability
46 - Up to 42 General-Purpose I/O Pins
47 - Up to Three SPI Master/Slave (up to 50Mbps)
48 - Up to Three 4-Wire UART
49 - Up to Three I2C Master/Slave 3.4Mbps High Speed
50 - Up to Four 32-Bit Timers (TMR)
51 - Up to Two Low-Power 32-Bit Timers (LPTMR)
52 - One I2S Master/Slave for Digital Audio Interface
53 - 12-Channel, 12-Bit, 1Msps SAR ADC with On-DieTemperature Sensor
55 - Security and Integrity
57 - Optional ECDSA-Based Cryptographic SecureBootloader in ROM
58 - Secure Cryptographic Accelerator for Elliptic Curve
59 - AES-128/192/256 Hardware Acceleration Engine
61 - Benefits and Features of MAX32672EVKIT:
63 - Selectable, On-Board, High-Precision Voltage Reference
64 - 128 x 128 (1.45in) Color TFT Display with SPI Interface
65 - Breadboard-Compatible Headers
66 - USB 2.0 Micro B-to-Serial UARTs
67 - UART0 and LPUART0 Interface Is Selectable through On-Board Jumpers
68 - All GPIOs Signals Accessed through 0.1in Headers
69 - 12 Analog Inputs Accessed through 0.1in Headers with Optional Filtering
70 - 10-Pin Arm® Cortex® SWD Connector
71 - Board Power Provided by USB Port
72 - On-Board, 3.3V LDO Regulator
73 - Test Loops Provided to Supply Optional VCORE Power Externally
74 - Individual Power Measurement on All IC Rails through Jumpers
75 - Two General-Purpose LEDs and One General-Purpose Pushbutton Switch
82 +-----------+------------+-------------------------------------+
85 | NVIC | on-chip | nested vector interrupt controller |
86 +-----------+------------+-------------------------------------+
87 | SYSTICK | on-chip | systick |
88 +-----------+------------+-------------------------------------+
89 | CLOCK | on-chip | clock and reset control |
90 +-----------+------------+-------------------------------------+
91 | GPIO | on-chip | gpio |
92 +-----------+------------+-------------------------------------+
93 | UART | on-chip | serial |
94 +-----------+------------+-------------------------------------+
95 | TRNG | on-chip | entropy |
96 +-----------+------------+-------------------------------------+
97 | I2C | on-chip | i2c |
98 +-----------+------------+-------------------------------------+
99 | DMA | on-chip | dma controller |
100 +-----------+------------+-------------------------------------+
101 | Watchdog | on-chip | watchdog |
102 +-----------+------------+-------------------------------------+
103 | SPI | on-chip | spi |
104 +-----------+------------+-------------------------------------+
105 | ADC | on-chip | adc |
106 +-----------+------------+-------------------------------------+
107 | Timer | on-chip | counter |
108 +-----------+------------+-------------------------------------+
109 | PWM | on-chip | pwm |
110 +-----------+------------+-------------------------------------+
111 | Flash | on-chip | flash |
112 +-----------+------------+-------------------------------------+
118 +-----------+---------------+---------------+------------------------------------------------------…
122 … | | +-----------+ | +-----------------------------------------------------…
123 | | | | Open | | | Disconnects on-board, high-precision voltage refer…
124 … | | +-----------+ | +-----------------------------------------------------…
125 | | | | Closed | | | Connects on-board, high-precision voltage referenc…
126 … | | +-----------+ | +-----------------------------------------------------…
128 +-----------+---------------+---------------+------------------------------------------------------…
129 …P2 | P0_22 | +-----------+ | +-----------------------------------------------------…
131 … | | +-----------+ | +-----------------------------------------------------…
133 … | | +-----------+ | +-----------------------------------------------------…
135 +-----------+---------------+---------------+------------------------------------------------------…
136 …P3 | P0_23 | +-----------+ | +-----------------------------------------------------…
138 … | | +-----------+ | +-----------------------------------------------------…
140 … | | +-----------+ | +-----------------------------------------------------…
142 +-----------+---------------+---------------+------------------------------------------------------…
143 …P4 | I2C0_SCL | +-----------+ | +-----------------------------------------------------…
145 … | | +-----------+ | +-----------------------------------------------------…
147 … | | +-----------+ | +-----------------------------------------------------…
149 +-----------+---------------+---------------+------------------------------------------------------…
150 …P5 | I2C0_SDA | +-----------+ | +-----------------------------------------------------…
152 … | | +-----------+ | +-----------------------------------------------------…
154 … | | +-----------+ | +-----------------------------------------------------…
156 +-----------+---------------+---------------+------------------------------------------------------…
157 …P6 | I2C1_SCL | +-----------+ | +-----------------------------------------------------…
159 … | | +-----------+ | +-----------------------------------------------------…
161 … | | +-----------+ | +-----------------------------------------------------…
163 +-----------+---------------+---------------+------------------------------------------------------…
164 …P7 | I2C1_SDA | +-----------+ | +-----------------------------------------------------…
166 … | | +-----------+ | +-----------------------------------------------------…
168 … | | +-----------+ | +-----------------------------------------------------…
170 +-----------+---------------+---------------+------------------------------------------------------…
171 …P8 | I2C2_SCL | +-----------+ | +-----------------------------------------------------…
173 … | | +-----------+ | +-----------------------------------------------------…
175 … | | +-----------+ | +-----------------------------------------------------…
177 +-----------+---------------+---------------+------------------------------------------------------…
178 …P9 | I2C2_SDA | +-----------+ | +-----------------------------------------------------…
180 … | | +-----------+ | +-----------------------------------------------------…
182 … | | +-----------+ | +-----------------------------------------------------…
184 +-----------+---------------+---------------+------------------------------------------------------…
185 …P10 | UART_RX | +-----------+ | +-----------------------------------------------------…
186 | | | | 2-1 | | | Connects the USB serial bridge to UART0_RX (P0.8).…
187 … | | +-----------+ | +-----------------------------------------------------…
188 | | | | 2-3 | | | Connects the USB serial bridge to LUART0_RX (P0.26…
189 … | | +-----------+ | +-----------------------------------------------------…
191 +-----------+---------------+---------------+------------------------------------------------------…
192 …P11 | UART_TX | +-----------+ | +-----------------------------------------------------…
193 | | | | 2-1 | | | Connects the USB serial bridge to UART0_TX (P0.9).…
194 … | | +-----------+ | +-----------------------------------------------------…
195 | | | | 2-3 | | | Connects the USB serial bridge to LUART0_TX (P0.27…
196 … | | +-----------+ | +-----------------------------------------------------…
198 +-----------+---------------+---------------+------------------------------------------------------…
199 …P12 | VDDA | +-----------+ | +-----------------------------------------------------…
201 … | | +-----------+ | +-----------------------------------------------------…
203 … | | +-----------+ | +-----------------------------------------------------…
205 +-----------+---------------+---------------+------------------------------------------------------…
206 …P13 | VDD | +-----------+ | +-----------------------------------------------------…
208 … | | +-----------+ | +-----------------------------------------------------…
210 … | | +-----------+ | +-----------------------------------------------------…
212 +-----------+---------------+---------------+------------------------------------------------------…
213 …14 | VCORE | +-----------+ | +------------------------------------------------------…
215 … | | +-----------+ | +------------------------------------------------------…
217 … | | +-----------+ | +------------------------------------------------------…
219 +-----------+---------------+---------------+------------------------------------------------------…
220 …P15 | LDO DUT | +-----------+ | +-----------------------------------------------------…
222 … | | +-----------+ | +-----------------------------------------------------…
224 … | | +-----------+ | +-----------------------------------------------------…
226 +-----------+---------------+---------------+------------------------------------------------------…
235 The EV kit is powered by +5V, which is made available through VBUS on the Micro USB type-B
239 Single- or Dual-Supply Operation
242 The EV kit is configured for single-supply operation. For dual-supply operation,
252 Low-Power Mode Current Measurements
255 To accurately achieve the low-power current values, the EV kit must be configured such that
272 The external voltage reference input VREF for the ADC can be sourced externally by a high-precision
280 The EV kit provides a USB-to-UART bridge chip (the FTDI FT230XS-R). This bridge eliminates
281 the requirement for a physical RS-232 COM port. Instead, the IC’s UART access is through
282 the Micro USB type-B connector (CN1). The USB-to-UART bridge can be connected to the IC’s UART0 or
290 The boot loader is activated by the boot-load-enable slide switch (SW2).
297 can be accessed through 0.1in-spaced headers J3 and J4.
324 SWD debug can be accessed through an Arm Cortex 10-pin connector (J5).
335 a Segger J-Link with Segger's native tooling by overriding the runner,
336 appending ``--runner jlink`` to your ``west`` command(s). The J-Link should
349 - `MAX32672EVKIT web page`_
352 …https://www.analog.com/en/design-center/evaluation-hardware-and-software/evaluation-boards-kits/ma…