We detect you are using an unsupported browser. For the best experience, please visit the site using Chrome, Firefox, Safari, or Edge. X

Developers of modern motor control applications need to implement many complex control algorithms to meet efficiency and performance specifications. We provide motor control software libraries and example applications that can be used with our microcontrollers (MCUs) and Digital Signal Controllers (DSCs) to jump start your design and reduce your development time.

Brushed DC Motors


Brushed DC (BDC) motors can be operated with a simple on/off control or a variable-speed control with optional feedback mechanism. The control system also depends on the drive type, which can be a unidirectional low-side drive, unidirectional high-side drive or bidirectional drive.

Brushed DC Motor Control Application Notes, Tuning Guides and Example Software

Algorithm 8-bit PIC® and
AVR® MCUs
Brushed DC Motor Fundamentals AN905
PIC18Cxx/PIC16Cxxx DC Servomotor Applications AN696
Servo Control of a Brushed DC Motor AN532
Low-Cost Bidirectional Brushed DC Motor Control Using the PIC16F684 AN893
Sensorless Position Control of Brushed DC Motor Using Ripple Counting Technique AN3049

 

Stepper Motors


Stepper motors have various drive techniques depending on the application and phase configuration of the motor. The drive can be either unipolar or bipolar and the step mode can be wave drive, full-step drive, half-step drive or microstep drive.

Stepper Motor Control Application Notes, Tuning Guides and Example Software

Algorithm 8-bit
AVR® MCUs
8-bit
PIC® MCUs
dsPIC33 DSCs
Stepper Motor Fundamentals AN907 AN907 AN907
Full- and Half -Stepping AN8017 AN906AN2326 AN1307
Microstepping   AN822AN2326 AN1307

Brushless DC Motors


Brushless DC (BLDC) motors are Permanent Magnet Synchronous Motors (PMSMs) that are designed to use six-step trapezoidal control. This can be implemented by using Hall sensors for sensored control or by measuring the motor’s back EMF for a sensorless implementation.

BLDC Motor Control Application Notes, Tuning Guides and Example Software

Algorithm 8-bit
AVR® MCUs
8-bit
PIC® MCUs
dsPIC33
DSCs
32-bit
PIC32MK/
SAM MCUs
SmartFusion® 2/
IGLOO® 2 FPGAs
Brushless DC (BLDC)
Motor Fundamentals
AN857AN885
AN7671
AN857AN885
AN7671
AN857AN885
AN7671
AN857AN885
AN7671
AC445
Sensored AN2522 AN899AN1779,
AN2049
AN957 42711A AC445
Sensored Sinusoidal AN8010AN8030 AN2557 AN1017   AC445
Sensorless BEMF AN8012AN7658 AN970AN1175,
AN1305AN857
AN901AN992   AC445
Sensorless Filtered BEMF
with Majority Detect
    AN1160   AC445
Tuning Guide: Sensorless
BLDC Control with Back-EMF
Filtering Using a Majority Function
    AN1160   AC445

Permanent Magnet Synchronous Motors


Closed-loop Field-Oriented Control (FOC) is essential for getting the best performance from Permanent Magnet Synchronous Motors (PMSMs). Our complete ecosystem for developing FOC control algorithm includes these resources:

Zero-Speed/Maximum-Torque Control


The Zero-Speed/Maximum-Torque (ZS/MT) control algorithm is a new variation of the sensorless Field-Oriented Control (FOC) algorithm that enables the adoption of sensorless control techniques in high-torque or low-speed motor control applications. These types of applications typically require three Hall effect position sensors. ZS/MT eliminates the need for Hall effect sensors, connectors and cables by using a reliable Initial Position Detection (IPD) method based on High-Frequency Injection (HFI) to determine the exact rotor position at zero and low speeds. This enables the control algorithm to deliver maximum torque to a variety of applications including drilling machines, garage door openers, automotive starters and e-bikes. The ZS/MT algorithm runs on dsPIC33 Motor Control Digital Signal Controllers and SAM C2x, SAM D/E5x, SAM E7x and PIC32MK MCUs and can be used with Interior Permanent Magnet (IPM) motors.

Advantages:

  • Reduces overall system cost in applications requiring high torque at zero (standstill) or low motor speeds
  • Offers improved reliability by eliminating potential issues due to faulty cables and ESD-sensitive Hall effect sensors

Application-Specific Algorithms for Field Oriented Control


To help you overcome the challenges of implementing FOC and improve the performance of your PMSM application, we offer a number of application notes and a variety of algorithms within our motor control software library such as:

  • Flux weakening
  • Initial Position Detection (IPD)
  • Soft stop
  • Stall detection
  • Windmilling
  • Torque compensation

Our technical brief discusses some algorithms that can improve the Field-Oriented Control of your PMSM.

Examples of Application-Specific Algorithms


Air conditioners and refrigerators: To enable heat exchange, motor-driven compressors are major components in air conditioning and refrigeration systems. Due to pressure variations during a compression cycle, the compressor loads the motor unevenly, causing vibrations in the motor, compressor and pipes. These vibrations, especially at low speeds, can cause fatigue in pipes and can lead to premature failure of the unit. At high speeds, the motor, compressor and pipes react less due to their typical mechanical responses. The Torque Compensation algorithm can be used to minimize vibrations in compressors.

Washing machines: With the combination of a high-inertia load and a motor running at a very high speed, an abrupt stop can suddenly transfer the energy back to the electrical system. The Soft Stop algorithm provides a controlled reduction to the motor speed to prevent a surge in the DC bus voltage when a washing machine is running in spin-dry mode and is suddenly stopped.

PMSM Control Application Notes, Tuning Guides and Example Software

Algorithm dsPIC33
DSCs
32-bit
PIC32MK/
SAM MCUs
SmartFusion® 2/
IGLOO® 2 FPGA
Sensored Sinusoidal AN1017 AN2757 AC445
Sensorless Dual-Shunt FOC with
Reduced Order Luenberger Observer
  AN2590 AC445
Sensorless Dual-Shunt FOC with
SMO Estimator and Field Weakening
AN1078   AC445
Sensorless Single-Shunt FOC with
SMO Estimator and Field Weakening
AN1299   AC445
Sensorless Dual-Shunt FOC with
SMO and PFC
AN1208   AC445
Sensorless Dual-Shunt FOC with
PLL Estimator and Field Weakening
AN1292 AN2520 AC445
Sensorless Dual-Shunt FOC with
PLL Estimator and PFC
  AN2584 AC445
Tuning Guide: Sensorless Single-Shunt
FOC with SMO Estimator PMSM
AN1299   AC445

AC Induction Motor


AC Induction Motors (ACIMs) are the most popular motors for Variable Frequency Drives (VFDs). Speed control of ACIMs can be implemented using either the Scalar Control Algorithm (V/f Control) or Field-Oriented Control (FOC).

ACIM Application Notes, Tuning Guides and Example Software

Algorithm 8-bit
AVR® MCUs
8-bit
PIC® MCUs
dsPIC33
DSCs
AC Induction Motor Fundamentals AN887 AN887 AN887
Open-Loop V/f AN7545AN7546 AN900AN843,
AN889AN955,
AN967AN1660
AN984
Closed-Loop Vector Control     AN908
Sensorless Dual-Shunt FOC with
PLL Estimator
    AN1162
Sensorless Dual-Shunt FOC with
PLL Estimator and Field Weakening
    AN1206

Products

We're having trouble displaying information on this page right now. Please visit our Parametric Chart tool to search these products and their data.
We're having trouble displaying information on this page right now. Please visit our Parametric Chart tool to search these products and their data.
View All Parametrics
Product Status Automotive Recommended 5K Pricing CPU Type Architecture Max CPU Speed (MHz) Program Memory Size (KB) RAM (KB) DRAM Interface Data EEPROM/HEF (Bytes) Auxiliary Flash (KB) SDIO/SD-CARD/eMMC Temperature Range Operation Voltage Range Graphics Controller/GPU Direct Memory Access Channels ADC Input Max ADC Resolution (Bits) Number of DACs USB Interface Number of USB Modules Number of Comparators Timers Capture/Compare/PWM Peripherals Motor Control PWM Outputs UART/SPI/I2C Number of Op Amps I2S Peripheral Pin Select / Pin Muxing Vbat/Vddbu battery backup Low Power External Memory Bus Interface QSPI Quadrature Encoder Interface Crypto Engine Hardware Touch Peripheral Number of CAN Modules Type of CAN module Ethernet Pin count Packages
ATSAMD20E14 In Production No $1.16 Cortex-M0+ 32 48 16 2 No 0 0 0 -40 to 105 1.62V - 3.63V No 0 10 12 1 None 0 2 5 x 16-bit 2 x 32-bit 12 -Std. PWM 16-bit PWM resolutions 6 -Input Capture 0 4 -UART 4 -SPI 4 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMD20G14 In Production No $1.21 Cortex-M0+ 32 48 16 2 No 0 0 0 -40 to 105 1.62V - 3.63V No 0 14 12 1 None 0 2 5 x 16-bit 2 x 32-bit 12 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 0 6 -UART 6 -SPI 6 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMD20J14 In Production No $1.28 Cortex-M0+ 32 48 16 2 No 0 0 0 -40 to 105 1.62V - 3.63V No 0 20 12 1 None 0 2 5 x 16-bit 2 x 32-bit 16 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 0 6 -UART 6 -SPI 6 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 64 64/TQFP, 64/UFBGA, 64/VQFN
ATSAMD09C13 In Production No $0.71 Cortex-M0+ 32 48 8 4 No 0 0 0 -40 to 85 2.4V - 3.6V No 6 5 12 0 None 0 0 2 x 16-bit 1 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 3 -Input Capture 6 2 -UART 2 -SPI 2 -I2C 0 0 Yes No No No 0 0 No 0 None None 14 14/SOIC
ATSAMD09D14 In Production No $0.80 Cortex-M0+ 32 48 16 4 No 0 0 0 -40 to 85 2.4V - 3.6V No 6 5 12 0 None 0 0 2 x 16-bit 1 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 3 -Input Capture 6 2 -UART 2 -SPI 2 -I2C 0 0 Yes No No No 0 0 No 0 None None 14 24/VQFN
ATSAMD10C13 In Production No $0.76 Cortex-M0+ 32 48 8 4 No 0 0 0 -40 to 105 1.62V - 3.63V No 6 5 12 1 None 0 2 2 x 16-bit 1 x 32-bit 2 -Std. PWM 16-bit PWM resolutions 3 -Input Capture 8 2 -UART 2 -SPI 2 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 14 14/SOIC
ATSAMD10C14 In Production No $0.82 Cortex-M0+ 32 48 16 4 No 0 0 0 -40 to 105 1.62V - 3.63V No 6 5 12 1 None 0 2 2 x 16-bit 1 x 32-bit 2 -Std. PWM 16-bit PWM resolutions 3 -Input Capture 8 2 -UART 2 -SPI 2 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 14 14/SOIC
ATSAMD10D13 In Production No $0.80 Cortex-M0+ 32 48 8 4 No 0 0 0 -40 to 105 1.62V - 3.63V No 6 10 12 1 None 0 2 2 x 16-bit 1 x 32-bit 4 -Std. PWM 16-bit PWM resolutions 3 -Input Capture 8 3 -UART 3 -SPI 3 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 24 20/SOIC, 24/VQFN
ATSAMD10D14 In Production No $0.86 Cortex-M0+ 32 48 16 4 No 0 0 0 -40 to 105 1.62V - 3.63V No 6 10 12 1 None 0 2 2 x 16-bit 1 x 32-bit 4 -Std. PWM 16-bit PWM resolutions 3 -Input Capture 8 3 -UART 3 -SPI 3 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 24 20/SOIC, 20/WLCSP, 24/VQFN
ATSAMD11C14 In Production No $0.87 Cortex-M0+ 32 48 16 4 No 0 0 0 -40 to 105 1.62V - 3.63V No 6 5 12 1 Full Speed 1 2 2 x 16-bit 1 x 32-bit 4 -Std. PWM 16-bit PWM resolutions 3 -Input Capture 8 2 -UART 2 -SPI 2 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 14 14/SOIC
ATSAMD11D14 In Production No $0.96 Cortex-M0+ 32 48 16 4 No 0 0 0 -40 to 105 1.62V - 3.63V No 6 10 12 1 Full Speed 1 2 2 x 16-bit 1 x 32-bit 4 -Std. PWM 16-bit PWM resolutions 3 -Input Capture 8 3 -UART 3 -SPI 3 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 24 20/SOIC, 20/WLCSP, 24/VQFN
ATSAMD21E15L In Production No $1.35 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 1.62V - 3.63V No 12 14 12 1 None 0 4 5 x 16-bit 2 x 32-bit 6 -Std. PWM 16-bit PWM resolutions 11 -Input Capture 12 5 -UART 5 -SPI 5 -I2C 0 1 Yes No Yes No 0 0 No 0 None None 32 32/TQFP, 32/VQFN
ATSAMC20E15A In Production Yes $1.48 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 2.7V - 5.5V No 6 10 12 0 None 0 2 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 12 4 -UART 4 -SPI 4 -I2C 0 0 Yes No No No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMC20G15A In Production Yes $1.77 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 2.7V - 5.5V No 6 12 12 0 None 0 2 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 4 -UART 4 -SPI 4 -I2C 0 0 Yes No No No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMC20J15A In Production Yes $1.84 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 2.7V - 5.5V No 6 12 12 0 None 0 2 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 4 -UART 4 -SPI 4 -I2C 0 0 Yes No No No 0 0 No PTC 0 None None 64 64/TQFP, 64/VQFN
ATSAMC21E15A In Production Yes $1.42 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 2.7V - 5.5V No 12 10 12 1 None 0 4 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 4 -UART 4 -SPI 4 -I2C 0 0 Yes No No No 0 0 No PTC 1 CAN-FD None 32 32/TQFP, 32/VQFN
ATSAMC21G15A In Production Yes $1.76 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 2.7V - 5.5V No 12 12 12 1 None 0 4 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 6 -UART 6 -SPI 6 -I2C 0 0 Yes No No No 0 0 No PTC 2 CAN-FD None 48 48/TQFP, 48/VQFN
ATSAMC21J15A In Production Yes $1.89 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 2.7V - 5.5V No 12 12 12 1 None 0 4 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 6 -UART 6 -SPI 6 -I2C 0 0 Yes No No No 0 0 No PTC 2 CAN-FD None 64 64/TQFP, 64/VQFN
ATSAMD20E15 In Production Yes $1.20 Cortex-M0+ 32 48 32 4 No 0 0 0 -40 to 125 1.62V - 3.63V No 0 10 12 1 None 0 2 5 x 16-bit 2 x 32-bit 12 -Std. PWM 16-bit PWM resolutions 6 -Input Capture 0 4 -UART 4 -SPI 4 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMD20G15 In Production Yes $1.29 Cortex-M0+ 32 48 32 4 No 0 0 0 -40 to 125 1.62V - 3.63V No 0 14 12 1 None 0 2 5 x 16-bit 2 x 32-bit 12 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 0 6 -UART 6 -SPI 6 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMD20J15 In Production Yes $1.35 Cortex-M0+ 32 48 32 4 No 0 0 0 -40 to 105 1.62V - 3.63V No 0 20 12 1 None 0 2 5 x 16-bit 2 x 32-bit 16 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 0 6 -UART 6 -SPI 6 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 64 64/TQFP, 64/UFBGA, 64/VQFN
ATSAMD21E15 In Production Yes $1.30 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 1.62V - 3.63V No 12 10 12 1 Full Speed 1 2 5 x 16-bit 2 x 32-bit 6 -Std. PWM 16-bit PWM resolutions 6 -Input Capture 12 4 -UART 4 -SPI 4 -I2C 0 1 Yes No Yes No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN, 35/WLCSP
ATSAMD21G15 In Production Yes $1.30 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 1.62V - 3.63V No 12 14 12 1 Full Speed 1 2 5 x 16-bit 2 x 32-bit 6 -Std. PWM 0-bit PWM resolutions 6 -Input Capture 14 6 -UART 6 -SPI 6 -I2C 0 1 Yes No Yes No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMD21J15 In Production Yes $1.38 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 125 1.62V - 3.63V No 12 20 12 1 Full Speed 1 2 5 x 16-bit 2 x 32-bit 10 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 14 6 -UART 6 -SPI 6 -I2C 0 1 Yes No Yes No 0 0 No PTC 0 None None 64 64/TQFP, 64/UFBGA, 64/VQFN
ATSAMDA1E14B In Production Yes $1.71 Cortex-M0+ 32 48 16 4 No 512 0 0 -40 to 105 2.7V - 3.63V No 12 10 12 1 Host, Device 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 6 -Input Capture 6 4 -UART 4 -SPI 4 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMDA1E15B In Production Yes $1.80 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 105 2.7V - 3.63V No 12 10 12 1 None 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 6 -Input Capture 6 4 -UART 4 -SPI 4 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMDA1G14B In Production Yes $2.00 Cortex-M0+ 32 48 16 4 No 512 0 0 -40 to 105 2.7V - 3.63V No 12 14 12 1 None 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 6 -Input Capture 6 6 -UART 6 -SPI 6 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMDA1G15B In Production Yes $2.11 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 105 2.7V - 3.63V No 12 14 12 1 Host, Device 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 6 -Input Capture 6 6 -UART 6 -SPI 6 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMDA1J14B In Production Yes $2.10 Cortex-M0+ 32 48 16 4 No 512 0 0 -40 to 105 2.7V - 3.63V No 12 20 12 1 None 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 8 -Input Capture 6 6 -UART 6 -SPI 6 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 64 64/TQFP
ATSAMDA1J15B In Production Yes $2.37 Cortex-M0+ 32 48 32 4 No 1024 0 0 -40 to 105 2.7V - 3.63V No 12 20 12 1 None 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 8 -Input Capture 6 6 -UART 6 -SPI 6 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 64 64/TQFP
ATSAMD21E16L In Production No $1.56 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 1.62V - 3.63V No 12 14 12 1 None 0 4 5 x 16-bit 2 x 32-bit 6 -Std. PWM 16-bit PWM resolutions 11 -Input Capture 12 5 -UART 5 -SPI 5 -I2C 0 1 Yes No Yes No 0 0 No 0 None None 32 32/TQFP, 32/VQFN
ATSAMD21G16L In Production No $1.64 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 1.62V - 3.63V No 12 18 12 1 None 0 4 5 x 16-bit 2 x 32-bit 10 -Std. PWM 16-bit PWM resolutions 13 -Input Capture 14 5 -UART 5 -SPI 5 -I2C 0 1 Yes No Yes No 0 0 No 0 None None 48 48/VQFN
ATSAMC20E16A In Production Yes $1.49 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 2.7V - 5.5V No 12 10 12 0 None 0 2 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 12 4 -UART 4 -SPI 4 -I2C 0 0 Yes No No No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMC20G16A In Production Yes $1.77 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 2.7V - 5.5V No 6 12 12 0 None 0 2 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 4 -UART 4 -SPI 4 -I2C 0 0 Yes No No No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMC20J16A In Production Yes $1.84 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 2.7V - 5.5V No 6 12 12 0 None 0 2 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 4 -UART 4 -SPI 4 -I2C 0 0 Yes No No No 0 0 No PTC 0 None None 64 64/TQFP, 64/VQFN
ATSAMC21E16A In Production Yes $1.56 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 2.7V - 5.5V No 12 10 12 1 None 0 4 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 4 -UART 4 -SPI 4 -I2C 0 0 Yes No No No 0 0 No PTC 1 CAN-FD None 32 32/TQFP, 32/VQFN
ATSAMC21G16A In Production Yes $1.71 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 2.7V - 5.5V No 12 12 12 1 None 0 4 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 6 -UART 6 -SPI 6 -I2C 0 0 Yes No No No 0 0 No PTC 2 CAN-FD None 48 48/TQFP, 48/VQFN, 64/VQFN
ATSAMC21J16A In Production Yes $1.81 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 2.7V - 5.5V No 12 12 12 1 None 0 4 5 x 16-bit 2 x 32-bit 10 -Std. PWM 32-bit PWM resolutions 10 -Input Capture 14 6 -UART 6 -SPI 6 -I2C 0 0 Yes No No No 0 0 No PTC 2 CAN-FD None 64 64/TQFP, 64/VQFN
ATSAMD20E16 In Production Yes $1.35 Cortex-M0+ 32 48 64 8 No 0 0 0 -40 to 125 1.62V - 3.63V No 0 10 12 1 None 0 2 5 x 16-bit 2 x 32-bit 12 -Std. PWM 0-bit PWM resolutions 6 -Input Capture 0 4 -UART 4 -SPI 4 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMD20G16 In Production Yes $1.43 Cortex-M0+ 32 48 64 8 No 0 0 0 -40 to 125 1.62V - 3.63V No 0 14 12 1 None 0 2 5 x 16-bit 2 x 32-bit 12 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 0 6 -UART 6 -SPI 6 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMD20J16 In Production Yes $1.50 Cortex-M0+ 32 48 64 8 No 0 0 0 -40 to 125 1.62V - 3.63V No 0 20 12 1 None 0 2 5 x 16-bit 2 x 32-bit 16 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 0 6 -UART 6 -SPI 6 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 64 64/TQFP, 64/UFBGA, 64/VQFN
ATSAMD21E16 In Production Yes $1.51 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 1.62V - 3.63V No 12 10 12 1 Full Speed 1 2 5 x 16-bit 2 x 32-bit 6 -Std. PWM 16-bit PWM resolutions 6 -Input Capture 12 4 -UART 4 -SPI 4 -I2C 0 1 Yes No Yes No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN, 35/WLCSP
ATSAMD21G16 In Production Yes $1.51 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 1.62V - 3.63V No 12 14 12 0 Full Speed 1 2 5 x 16-bit 2 x 32-bit 6 -Std. PWM 16-bit PWM resolutions 6 -Input Capture 14 6 -UART 6 -SPI 6 -I2C 0 1 Yes No Yes No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMD21J16 In Production Yes $1.60 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 125 1.62V - 3.63V No 12 20 12 1 Full Speed 1 2 5 x 16-bit 2 x 32-bit 10 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 14 6 -UART 6 -SPI 6 -I2C 0 1 Yes No Yes No 0 0 No PTC 0 None None 64 64/TQFP, 64/VQFN
ATSAMDA1E16B In Production Yes $1.89 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 105 2.7V - 3.63V No 12 10 12 1 None 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 6 -Input Capture 6 4 -UART 4 -SPI 4 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMDA1G16B In Production Yes $2.30 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 105 2.7V - 3.63V No 12 14 12 1 None 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 6 -Input Capture 6 6 -UART 6 -SPI 6 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 48 48/TQFP, 48/VQFN
ATSAMDA1J16B In Production Yes $2.76 Cortex-M0+ 32 48 64 8 No 2048 0 0 -40 to 105 2.7V - 3.63V No 12 20 12 1 Host, Device 1 2 5 x 16-bit 2 x 32-bit 0 -Std. PWM 0-bit PWM resolutions 8 -Input Capture 6 6 -UART 6 -SPI 6 -I2C 0 1 Yes No No No 0 0 No PTC 0 None None 64 64/TQFP
ATSAMD20E17 In Production No $1.45 Cortex-M0+ 32 48 128 16 No 0 0 0 -40 to 105 1.62V - 3.63V No 0 10 12 1 None 0 2 5 x 16-bit 2 x 32-bit 12 -Std. PWM 16-bit PWM resolutions 6 -Input Capture 0 4 -UART 4 -SPI 4 -I2C 0 0 Yes No Yes No 0 0 No PTC 0 None None 32 32/TQFP, 32/VQFN
ATSAMD20G17 In Production No $1.52 Cortex-M0+ 32 48 128 16 No 0 0 0 -40 to 105 1.62V - 3.63V No 0 14 12 1 None 0 2 5 x 16-bit 2 x 32-bit 12 -Std. PWM 16-bit PWM resolutions 8 -Input Capture 0 6 -UART 6 -SPI 6 -I2C 0 0 Yes No Yes No 0 0 No PTC 0