Lines Matching +full:connected +full:- +full:ground
6 optimized Bluetooth® 5 solutions with the MAX32666 Arm® Cortex®-M4 processor with FPU. The board
7 also includes the MAX1555 1-Cell Li+ battery charger for battery management. The form factor is
9 off-the-shelf peripheral expansion boards. The board also includes a variety of peripherals,
10 such as a micro SD card connector, 6-axis accelerometer/gyro, RGB indicator LED, and pushbutton.
11 This platform provides poweroptimized flexible for quick proof-of-concepts and early software
28 - MAX32666 MCU:
30 - High-Efficiency Microcontroller and Audio DSP for Wearable and Hearable Devices
32 - Arm Cortex-M4 with FPU Up to 96MHz
33 - Optional Second Arm Cortex-M4 with FPU Optimized for Data Processing
34 - Low-Power 7.3728MHz System Clock Option
35 - 1MB Flash, Organized into Dual Banks 2 x 512KB
36 - 560KB (448KB ECC) SRAM; 3 x 16KB Cache
37 - Optional Error Correction Code (ECC-SEC-DED)for Cache, SRAM, and Internal Flash
39 - Bluetooth 5 Low Energy Radio
41 - 1Mbps and 2Mbps Data Throughput
42 - Long Range (125kbps and 500kbps)
43 - Advertising Extension
44 - Rx Sensitivity: -95dbm; Tx Power Up to +4.5dbm
45 - On-Chip Matching with Single-Ended Antenna Port
47 - Power Management Maximizes Operating Time for Battery Applications
49 - Integrated SIMO SMPS for Coin-Cell Operation
50 - Dynamic Voltage Scaling Minimizes Active Core Power Consumption
51 - 27.3μA/MHz at 3.3V Executing from Cache
52 - Selectable SRAM Retention in Low Power Modes with RTC Enabled
54 - Multiple Peripherals for System Control
56 - Three QSPI Master/Slave with Three Chip Selects Each
57 - Three 4-Wire UARTs
58 - Three I2C Master/Slave
59 - Up to 50 GPIO
60 - QSPI (SPIXF) with Real-Time Flash Decryption
61 - QSPI (SPIXR) RAM Interface Provides SRAMExpansion
62 - 8-Input 10-Bit Delta-Sigma ADC 7.8ksps
63 - USB 2.0 HS Engine with Internal Transceiver
64 - PDM Interface Supports Two Digital Microphones
65 - I2S with TDM
66 - Six 32-Bit Timers
67 - Two High-Speed Timers
68 - 1-Wire Master
69 - Sixteen Pulse Trains (PWM)
70 - Secure Digital Interface Supports SD3.0/SDIO3.0/eMMC4.51
72 - Secure Valuable IP/Data with Hardware Security
74 - Trust Protection Unit (TPU) with MAA SupportsFast ECDSA and Modular Arithmetic
75 - AES128/192/256, DES, 3DES, Hardware Accelerator
76 - TRNG Seed Generator
77 - SHA-2 Accelerator•Secure Bootloader
79 - External devices connected to the MAX32666FTHR:
81 - MAX1555 1-Cell Li+ Battery Charger
82 - Breadboard Compatible Headers
83 - 10-Pin Cortex Debug Header
84 - Micro USB Connector
85 - Micro SD Card Connector
86 - RGB Indicator LED and One General Purpose Push Button Switch
87 - 6-Axis Accelerometer/Gyro
88 - Bluetooth Surface Mount Antenna
96 +-----------+------------+-------------------------------------+
99 | NVIC | on-chip | nested vector interrupt controller |
100 +-----------+------------+-------------------------------------+
101 | SYSTICK | on-chip | systick |
102 +-----------+------------+-------------------------------------+
103 | CLOCK | on-chip | clock and reset control |
104 +-----------+------------+-------------------------------------+
105 | GPIO | on-chip | gpio |
106 +-----------+------------+-------------------------------------+
107 | UART | on-chip | serial |
108 +-----------+------------+-------------------------------------+
109 | TRNG | on-chip | entropy |
110 +-----------+------------+-------------------------------------+
111 | Watchdog | on-chip | watchdog |
112 +-----------+------------+-------------------------------------+
113 | SPI | on-chip | spi |
114 +-----------+------------+-------------------------------------+
115 | DMA | on-chip | dma controller |
116 +-----------+------------+-------------------------------------+
117 | I2C | on-chip | i2c |
118 +-----------+------------+-------------------------------------+
119 | ADC | on-chip | adc |
120 +-----------+------------+-------------------------------------+
121 | Timer | on-chip | counter |
122 +-----------+------------+-------------------------------------+
123 | PWM | on-chip | pwm |
124 +-----------+------------+-------------------------------------+
125 | W1 | on-chip | one wire master |
126 +-----------+------------+-------------------------------------+
127 | Flash | on-chip | flash |
128 +-----------+------------+-------------------------------------+
136 +---------+----------+-----------------------------------------------------------------------------…
139 | 1 | GND | Ground …
140 +---------+----------+-----------------------------------------------------------------------------…
142 +---------+----------+-----------------------------------------------------------------------------…
144 +---------+----------+-----------------------------------------------------------------------------…
146 +---------+----------+-----------------------------------------------------------------------------…
148 +---------+----------+-----------------------------------------------------------------------------…
150 +---------+----------+-----------------------------------------------------------------------------…
152 +---------+----------+-----------------------------------------------------------------------------…
154 +---------+----------+-----------------------------------------------------------------------------…
156 +---------+----------+-----------------------------------------------------------------------------…
158 +---------+----------+-----------------------------------------------------------------------------…
160 +---------+----------+-----------------------------------------------------------------------------…
162 +---------+----------+-----------------------------------------------------------------------------…
163 | 13 | GND | Ground …
164 +---------+----------+-----------------------------------------------------------------------------…
166 +---------+----------+-----------------------------------------------------------------------------…
167 | 15 | 3V3 | 3.3V Output. Typically used to provide 3.3V to peripherals connected to the …
168 +---------+----------+-----------------------------------------------------------------------------…
170 +---------+----------+-----------------------------------------------------------------------------…
176 +---------+----------+-----------------------------------------------------------------------------…
181 +---------+----------+-----------------------------------------------------------------------------…
182 | 2 | PWREN | Power Enable. This is connected to the ON pin of the MAX4995 LDO. It turns o…
183 +---------+----------+-----------------------------------------------------------------------------…
184 | 3 | VBUS | USB VBUS Signal. This can be used as a 5V supply when connected to USB. This…
187 +---------+----------+-----------------------------------------------------------------------------…
188 | 4 | P0_12 | 1-Wire master signal …
189 +---------+----------+-----------------------------------------------------------------------------…
191 +---------+----------+-----------------------------------------------------------------------------…
193 +---------+----------+-----------------------------------------------------------------------------…
195 +---------+----------+-----------------------------------------------------------------------------…
197 +---------+----------+-----------------------------------------------------------------------------…
199 +---------+----------+-----------------------------------------------------------------------------…
201 +---------+----------+-----------------------------------------------------------------------------…
202 | 11 | P0_6 | I2CM0 SCL. Pulled to MAX32666 VDDIOH, connected to BMI160. …
203 +---------+----------+-----------------------------------------------------------------------------…
204 | 12 | P0_7 | I2CM0 SDA. Pulled to MAX32666 VDDIOH, connected to BMI160. …
205 +---------+----------+-----------------------------------------------------------------------------…
215 SWD debug can be accessed through the Cortex 10-pin connector, JH2.
218 Once the debug probe is connected to your host computer, then you can simply run the
224 a Segger J-Link with Segger's native tooling by overriding the runner,
225 appending ``--runner jlink`` to your ``west`` command(s). The J-Link should
226 be connected to the standard 2*5 pin debug connector (JH2) using an
238 - `MAX32666FTHR web page`_
241 …https://www.analog.com/en/design-center/evaluation-hardware-and-software/evaluation-boards-kits/MA…