Raptor UAS47

The UAS47 is a UAS propulsion control module, a part of the Raptor embedded Model-Based Design (eMBD) controls development platform. The UAS47 was specifically designed to drive turbine or internal combustion engines but can be used as a general-purpose controller where IO matches the system needs.

The UAS47 has two CAN buses, configurable discrete inputs and outputs including differential analog inputs, frequency inputs, low-side driver outputs, and a three-phase BLDC driver.

The UAS47 is programmed using MATLAB/Simulink and Raptor-Dev tools that significantly speed up algorithm development by using automatic software integration and code generation. In addition, developers can quickly test application software using simulation and Raptor automated testing.

Key Specifications:

• Programming: MATLAB Simulink with Raptor
• Compiler: S32 Design Studio for Power Architecture v2.1 (free from NXP)
• Processor: NXP SPC5743R @ 200MHz
• Memory:
  • 3MB App Flash
  • 224KB RAM
  • 16KB EEPROM (emulated)
• Operating Voltage: 8–32V
• Inputs:
  • 8 analog
  • 4 digital/frequency
  • 4 RTD (2-wire)
  • 3 Hall-effect speed sensor
• Outputs:
  • 8 PWM low-side drivers
  • 3-phase brushless DC (BLDC) driver
  • 1 sensor power 5V output
• Communication: 2 CAN 2.0B
• Environmental: −40°C to 85°C, IP69k (intent)
• Construction: Aluminum
• Weight: 0.94 lb (0.425 kg)