Product Details
Key Features
Applications/Uses
MCU Core | ARM Cortex-M3 |
Internal Flash (KBytes) | 256 |
Core Clock Speed (MHz) (max) | 24 |
Data Processing | 32-bit |
Internal SRAM (KBytes) | 32 |
Package/Pins | CTBGA-CU/120 CTBGA-CU/192 WLP/108 |
Budgetary Price (See Notes) | 0 |
Simplified Block Diagram
Technical Docs
Data Sheet | Wellness Measurement Microcontroller | Jun 26, 2017 | |
App Note | Boost Performance and Add Functionality to Portable Medical Devices Without Affecting the Power Budget | ||
User Guide | MAX32600 User's Guide | ||
App Note | Golf Offers Insight to Wearable IoT Technology Trends |
Support & Training
Search our knowledge base for answers to your technical questions.
Filtered SearchOur dedicated team of Applications Engineers are also available to answer your technical questions. Visit our support portal .
Parameters
MCU Core | ARM Cortex-M3 |
Internal Flash (KBytes) | 256 |
Core Clock Speed (MHz) (max) | 24 |
Data Processing | 32-bit |
Internal SRAM (KBytes) | 32 |
Package/Pins | CTBGA-CU/120 CTBGA-CU/192 WLP/108 |
Budgetary Price (See Notes) | 0 |
Key Features
- Integrated AFE Enables Precision Wellness Measurements with Minimal Discretes
- 16-Bit ADC with Input Mux and PGA
- Up to 500ksps Conversion Rate
- PGA with Gain of 1, 2, 4, and 8 and Bypass Mode
- Differential 8:1 or Single-Ended 16:1 Input Mux
- Internal Mux Inputs for Measuring VDDA3
- Internal or External Voltage Reference
- Programmable Buffers for ADC and DACs
- Two 12-Bit DACs and Two 8-Bit DACs
- Four Operational Amplifiers
- Four Low-Power Comparators
- Four Uncommitted SPST Analog Switches
- Four Ground Switches
- Up to Eight 100mA LED Driver Pairs (Sink)
- Internal Temperature Sensor
- 16-Bit ADC with Input Mux and PGA
- Secure Valuable IP and Data with Robust On-Board Trust Protection Unit
- Trust Protection Unit for End-to-End Security
- AES Hardware Engine
- µMAA for ECDSA and RSA
- True Random Number Generator (TRNG)
- Fast-Erase SRAM for Secure Key Storage
- Industry’s Lowest Overall System Power Increases Battery Life
- 175µA/MHz Active Power Executing Code from Cache
- 1.25µA Current Consumption with Real-Time Clock Enable in LP0
- 1.8µA Current Consumption with Data Retention and Fast 15µs Wakeup in LP1
- Peripheral Clock Control
- 6-Channel DMA Engine Enables Intelligent Peripheral Operation While Micro is in Sleep Mode
- Flexible Package Options
- 120-Ball CTBGA, 0.5mm Pitch, 7mm x 7mm
- 192-Ball CTBGA, 0.65mm Pitch, 12mm x 12mm
- 108-Bump WLP, 0.4mm Pitch, 5.4mm x 4.3mm
Applications/Uses
- Blood Glucose Metering
- Galvanic Skin Response Measurement
- Pulse Oximetry Measurement
- Wearable Medical Devices
Description
The MAX32600 microcontroller is based on the industry-standard ARM® Cortex®-M3 32-bit RISC CPU operating at up to 24MHz. It includes 256KB of flash memory, 32KB of SRAM, a 2KB instruction cache, and integrated high-performance analog peripherals.
The MAX32600 is available in the following package options: 192-ball, 12mm x 12mm CTBGA; 120-ball, 7mm x 7mm CTBGA; and 108-ball, 5.4mm x 4.3mm WLP.
In addition to the free tools provided by Maxim, the MAX32600 supports the Embedded Workbench from IAR. The IAR Embedded Workbench® incorporates a compiler, an assembler, a linker, and a debugger into one IDE. It is easy to use, provides advanced and highly-efficient optimization features, and is highly integrated with hardware, RTOS products, and middleware. The IAR Embedded Workbench for ARM is available in several versions, including a product package that is designed specifically for ARM Cortex-M core families.
Technical Docs
Data Sheet | Wellness Measurement Microcontroller | Jun 26, 2017 | |
App Note | Boost Performance and Add Functionality to Portable Medical Devices Without Affecting the Power Budget | ||
User Guide | MAX32600 User's Guide | ||
App Note | Golf Offers Insight to Wearable IoT Technology Trends |
Support & Training
Search our knowledge base for answers to your technical questions.
Filtered SearchOur dedicated team of Applications Engineers are also available to answer your technical questions. Visit our support portal .