STSPIN32F0x Family – Integrated MCU and Gate Drivers

All the integrated features of STSPIN32F0x family make design of the application PCB easier, and result in reduced PCB area consumption, bill of material and overall application cost.

INTEGRATION OF DIGITAL AND ANALOG POWER

It embeds an MCU (STM32F031x6x7) featuring an ARM® 32-bit Cortex®-M0 CPU and a 45V, 250V or 600V triple half bridge gate driver, able to drive N-channel power MOSFETs or IGBTs.

SCALABLE OFFER

STSPIN32F0 is offered in 3 different voltages and several current capability options. The low voltage drivers can go up to 45V, the STSPIN32F025x drivers have the voltage range up to 250V and the 600V is maximum voltage for the STSPIN32F060x drivers.

STSPIN32F0x MCU Key Common Features

• •  32-bit ARM® Cortex®-M0 core
• •  Up to 48 MHz clock frequency
• •  4-kByte SRAM with HW parity
• •  32-kByte Flash memory with option bytes

Key Features Specific for Low Voltage Options

The integrated operational amplifiers are available for the signal conditioning of the analog Hall-effect sensors and the shunt resistor signal. A comparator with a programmable threshold is integrated to perform the overcurrent protection.

• •  Extended operating voltage up to 45 V
• •  Three-phase gate drivers
• •  600 mA sink/source
• •  Integrated bootstrap diodes
• •  Cross-conduction prevention
• •  3.3. V DC/DC buck converter regulator with overcurrent, short-circuit, and thermal protection
• •  12 V LDO linear regulator with thermal protection
• •  5 general-purpose timers
• •  12-bit ADC converter (up to 9 channels)
• •  I2C, USART and SPI interfaces
• •  Comparator for overcurrent protection with programmable threshold
• •  3FG open-drain output providing the decoded result of 3 Hall sensors inputs
• •  Standby mode for low power consumption
• •  UVLO protection on each power supply
• •  VM, VDD, VREG and VBOOTx
• •  On-chip debug support via SWD
• •  Extended temperature range: -40 to +125 °C

Versions and their specific features

STSPIN32F0

• •  UVLO at 8V
• •  16 general-purpose I/O ports (GPIO)
• •  4 rail-to-rail operation amplifiers for signal conditioning

STSPIN32F0A

• •  UVLO at 6.7V
• •  16 general-purpose I/O ports (GPIO)
• •  3 rail-to-rail operation amplifiers for signal conditioning
• •  Bootloader

STSPIN32F0B

• •  UVLO at 6.7V
• •  20 general-purpose I/O ports (GPIO)
• •  One rail-to-rail operational amplifier for signal conditioning
• •  Bootloader

Key features specific for 250V versions

• •  High voltage rail up to 250 V
• •  dV/dt transient immunity ±50 V/ns
• •  Gate driving voltage range from 9V to 20V
• •  21 general-purpose I/O ports (GPIO)
• •  6 general-purpose timers
• •  12-bit ADC converter (up to 10 channels)
• •  I2C, USART and SPI interfaces
• •  Matched propagation delay for all channels
• •  Integrated bootstrap diodes
• •  Comparator for fast over current protection
• •  UVLO, Interlocking and deadtime functions
• •  Smart shutdown (smartSD) function
• •  Standby mode for low power consumption
• •  On-chip debug support via SWD
• •  Extended temperature range: -40 to +125 °C
• •  Package:
• •  TQFP 10x10 64L pitch 0.5 Creepage 1.2 mm
• •  QFN 10x10 72L pitch 0.5 Creepage 1.8 mm

Versions and their specific features

STSPIN32F0251

• •  STSPIN32F0251/Q: 200/350 mA source/sink current

STSPIN32F0252

• •  STSPIN32F0252/Q: 1/0.85 A source/sink current

STSPIN32F0601

• •  STSPIN32F0601/Q: 200/350 mA source/sink current

STSPIN32F0602

• •  STSPIN32F0602/Q: 1/0.85 A source/sink current

Evaluation Boards

• 1.  STEVAL-SPIN3201 - The board is designed for sensored or sensorless vector control – FOC algorithms with
  3-shunt sensing.
• 
  
  
• 2.  STEVAL-SPIN3202 - The board is designed for sensored or sensorless vector control - FOC and six-step algorithms with single shunt sensing.
• 
  
  
• 3.  STEVAL-SPIN3204 - The board is designed to help you test and develop motor control designs for applications such as power tools, home appliances, fans and pumps, with a flexible evaluation platform that even allows you to toggle between external sensor and sensorless position feedback data methods.
• 
  
  
• 4.  EVALKIT-ROBOT-1 - This evaluation kit is offering a ready-to-use servo brushless solution. Thanks to the high integration level of the STSPIN32F0A, the control board provides a powerful power stage, the analog circuitry implementing current sensing and overcurrent protection and a Cortex-M0 microcontroller performing a Field-Oriented Control with closed-loop positioning. All packed into a 40 mm x 40 mm footprint.
• 
  
  
• 5.  STEVAL-PTOOL1V1 - This compact 70 mm x 30 mm reference design board is tailored for low voltage power tools driven by 3-phase brushless motors, supplied by 2S to 6S batteries. The design is based on the STSPIN32F0B controller and STL180N6F7 (or STL220N6F7) power MOSFET. The board is ready for sensorless and sensored FOC, and can be configured for six-step sensorless control through available BEMF sensing circuitry. The accompanying six-step STSW-PTOOL1V1 firmware uses position feedback from Hall effect sensors.
• 
  
  
• 6.  STEVAL-PTOOL2V1 - The BLDC driver reference design is tailored for battery-operated power tools using 8S to 15S battery packs. It is based on the STSPIN32F0252 motor controller with embedded 3-phase, 250 V gate driver and low-power STM32 MCU. The power stage is based on the STL130N8F7 power MOSFETs or any similarly rated device in a PowerFlat 5x6 package. The board implements single shunt sensing topology with both field-oriented control (FOC) and sensored or sensorless 6-step control supported for driving permanent magnet synchronous motors (PMSM) and brushless DC (BLDC) motors.
• 
  
  
• 7.  EVSPIN32F0251S1 - This board is a 3-phase complete inverter based on the STSPIN32F0251 controller, which embeds a 3‑phase 250 V gate driver and a Cortex®‑M0 STM32 MCU. The power stage features STD17NF25 MOSFETs, but can be populated with any IGBT or Power MOSFET in DPAK or powerFLAT 6x5 package. The board has a single-shunt sensing topology, and both the field-oriented control (FOC) and sensored or sensorless 6‑step control can be implemented.
• 
  
  
• 8.  EVSPIN32F0601S1 - This board is a 3-phase complete inverter based on the STSPIN32F0601 controller, which embeds a 3‑phase 600 V gate driver and a Cortex®-M0 STM32 MCU. The power stage features STGD6M65DF2 IGBTs, but can be populated with any IGBT or Power MOSFET in DPAK or powerFLAT 8x8 HV package. The board has a single-shunt sensing topology, and both the field-oriented control (FOC) and sensored or sensorless 6‑step control can be implemented. This allows driving permanent magnet synchronous motors (PMSMs) and brushless DC (BLDC) motors.
• 
  
  
• 9.  EVSPIN32F0601S3 - This board is a 3-phase complete inverter based on the STSPIN32F0601 controller, which embeds a 3‑phase 600 V gate driver and a Cortex®‑M0 STM32 MCU. The power stage features STGD6M65DF2 IGBTs, but can be populated with any IGBT or Power MOSFET in DPAK or powerFLAT 8x8 HV package. The board has a three-shunt sensing topology, and the field-oriented control (FOC), either sensored or sensorless, can be implemented. This makes it especially suited to drive permanent magnet synchronous motors (PMSMs).
• 
  
  
• 10.  EVSPIN32F0602S1 - This board is a 3-phase complete inverter based on the STSPIN32F0602 controller, which embeds a 3-phase 600 V gate driver and a Cortex-M0 STM32 MCU. The power stage features STD18N65M5 MOS, but can be populated with any IGBT or Power MOSFET in DPAK or powerFLAT 8x8 HV package. The board has a single-shunt sensing topology, and both the field-oriented control (FOC) and sensored or sensorless 6-step control can be implemented.

Featured Videos