The BridgeSwitch ICs feature high- and low-side advanced FREDFETs (Fast Recovery Diode Field Effect Transistors) with integrated lossless current sensing, resulting. The higher efficiency along with the distributed thermal footprint provided by the IHB driver eliminates the need for a heatsink, reducing both system cost and weight. Integrated lossless current sensing, bus voltage sensing and system-level thermal sensing makes this device family ideal for BLDC motors in home-appliance applications.
The BridgeSwitch devices are aimed at refrigerator compressors, HVAC system fans and other residential and light commercial pumps, fans and blowers.
The 600 V FREDFETs used in BridgeSwitch ICs incorporate fast, ultra-soft-recovery body-diodes. This drastically reduces losses during switching and reduces noise generation, which simplifies system level EMC. The new high-voltage, self-powered, half-bridge motor driver ICs also feature built-in device protection and system monitoring and a robust single-wire status update interface which enables communication between the motor-microcontroller and up to three BridgeSwitch devices. Each BridgeSwitch device may be configured with different high- and low-side current limits, eliminating the need for the microcontroller and external circuitry to protect the system from open or shorted motor windings. Integrated loss-less current monitoring provides hardware-based motor fault protection, which simplifies the task of providing protection under motor-fault conditions to satisfy IEC60335-1 and IEC60730-1 requirements.
“We have taken a fresh look at the challenges posed by the burgeoning BLDC market and ever-tightening energy-use regulations worldwide, and produced an innovative solution that saves energy and space while reducing the BOM. This eases compliance with safety standards, simplifies circuitry and reduces development time,” said Cristian Ionescu-Catrina, senior product marketing manager at PI.
Other features include up to 20 kHz PWM frequency, and a small signal output that provides accurate, real-time reporting of FREDFET drain current which mirrors the positive motor winding current. Safety features include two-level device over-temperature detection, low-side and high-side cycle-by-cycle current limit, as well as DC bus overvoltage and undervoltage protection and reporting. Devices are compatible