ATAVRMC300 Atmel, ATAVRMC300 Datasheet - Page 2
ATAVRMC300
Manufacturer Part Number
ATAVRMC300
Description
BOARD EVAL LV MOTOR CONTROL PWR
Manufacturer
Atmel
Series
AVR®r
Specifications of ATAVRMC300
Main Purpose
Power Management, Motor Control
Embedded
Yes, MCU, 8-Bit
Utilized Ic / Part
ATmega32M1
Primary Attributes
3-Ph BLDC, Brushed DC, Stepper Motor Driver Board, 40V, 6A
Secondary Attributes
Requires ATAVRMC301, ATAVRMC303, or ATAVRMC310
Processor To Be Evaluated
ATmega32M1
Data Bus Width
8 bit
Interface Type
RS-232, USB
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
2 Hardware overview
2.1 Specifications
2.1.1 Necessary precautions
2
AVR430
Please refer to schematics, layout and BOM available at http://www.atmel.com.
The MC300 motor control driver board is a power stage board intended for driving
BLDC and stepper motors. It has four half-bridges with independent control of high
and low sides. Each bridge has options for filtered/voltage divided feedback from its
output (EMF) and shunt resistor. There is also feedback from a common shunt
resistor, Vmotor (Vm) and Vneutral (Vn - center tap motor windings).
Four 8-pin 2,54mm (100mil) horizontal female pin headers on the left side of the
board form a system connector for device boards.
The board has an adjustable voltage regulator for Vcc, 3.3V or 5V, and this voltage is
available on the system connector. A 5V regulator powers the Hall sensors. Vm, Vin
and Vcc each have their own LED to indicate power.
MC300 maximum ratings with components as delivered:
Input:
• Vin: 10 – 20VDC
• Vm: 0 – 40VDC, Im
Output ratings:
• Vcc = 3.3/5V, I
• Vha = 5V, I
The driver stage consists of four half-bridges capable of 40V / 30A (Warning! Other
components such as shunt resistors limit the maximum current to 6A).
The gate voltage to the high side MOS is powered by a bootstrap capacitor. To
sustain the voltage over this capacitor the high side must be turned off for a short
time on a regular basis, allowing the capacitor to be recharged via a diode. Failing
to do so, for example. by keeping the high side permanently on, will cause the gate
voltage on the high side MOS to drop and the internal resistance to increase. If a high
current is going thru the high side MOS at this point the transistor will overheat and be
destroyed. The fuse will not prevent this from happening.
max
max
= 0.1A
= 0.5A
max
= 6A
8124C-AVR-10/08
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