The brushed motors also used in printers and office equipment require a high power drive to produce the high levels of torque required.
As more applications become automated and use motors, the demand for compact, space-saving solutions increases.
Realising high-power brushed motor drives requires a high-voltage output, which can strain the driver circuit.
Also brushed motors are unique in that they require support for inrush current that, again, has the potential to strain drivers.
Normally high-power drives are realised with mixed technology using an integrated driver and discrete switching MOSFETs.
However, while this approach is valid, it increases the component count thereby increasing cost and size.
The device is based on Toshiba’s latest 130nm process technology and incorporates a single output bridge mode that can deliver up to 9.0A at 50V. It also has the ability to control two brushed motors (50V, 4.5A / 2 channels), as it incorporates a dual bridge mode that can control each channel independently due to two distinct output channels.
The new TB67H420FTG brushed motor driver supports industry-leading high power drives and contributes to space saving due to its small 7 x 7mm QFN48 surface-mount package.
The inbuilt MOSFETs have ultra-low on-resistance of just 0.17 Ω in single bridge mode and 0.33Ω in dual bridge mode, thereby ensuring efficient operation and minimal heat generation.
Error detection
Alongside a current limiter and essential built-in error detections for over temperature, over current and under voltage lock out, the new driver also integrates a frequently requested error detection output, which flags any errors to the system, creating higher levels of safety.
The new brushed motor driver also features Toshiba’s Advanced Current Detection System (ACDS) that monitors and controls current without the use of sense resistors, thereby saving PCB space and reducing BOM costs.