SLOA328 December 2022 DRV8262 , DRV8462
PRODUCTION DATA
Solution size can play a major role in deciding which motor driver topology is going to be used. Solution size of a motor driver can vary significantly depending on whether it is an integrated FET driver or a gate driver.
Integrated FET drivers typically have smaller solution sizes than gate drivers because of the inclusion of the power FETs within the driver package. Applications for which PCB space is limited or a simple design without much flexibility is required, an integrated FET driver might be the best option. For example, applications such as PLC (programmable logic controller) and factory automation prefers integrated FET motor drivers, because the overall solution box size is decreasing in every generation of system design.
Another factor that needs to be taken into consideration when comparing the solution sizes of integrated FET drivers and gate drivers is the MOSFET drain-source on resistance (RDS(ON)). This is where the flexibility of gate drivers can be useful. For same output power level, the external FETs can be selected with lower RDS(ON). Even if this makes the solution size larger for the gate driver, it allows for lower power loss and higher system efficiency.
Table 2-1 compares the PCB solution size of the DRV8262 H-Bridge integrated FET driver against the DRV8701 H-Bridge gate driver, both designed for 10 A peak current.
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Solution Size: 20.3 mm x 24.2 mm |
Solution Size: 40.5 mm x 34.5 mm |
Table 2-2 compares the PCB solution size of the DRV8462 integrated FET stepper driver against the DRV8711 stepper gate driver, both designed for 5 A full-scale current.
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Solution size: 20.3 mm x 24.2 mm |
Solution size: 51 mm x 46.7 mm |
This comparison holds good for external FET gate drivers from other motor driver vendors as well.