Weight 85 g (incl. Heatsink)
Operating temperature
0 °C
[6]
to 40 °C
Storage Temperature -35 to 85 °C
Max. installation altitude 2000 m
Humidity 5-85% rH
Sensors on-board DC-BUS Voltage, DC-BUS current, Phase Voltage, Phase current (two
phases measured, one computed), Temperature
[1]
[2]
[3]
[4]
[5]
[6]
Currently not supported by our standard software. Can be developed upon request, please contact
sales@synapticon.com
All Analog Inputs can be configured as single-ended 0-5 V, 0-10 V, 0-20 V or differential ±5 V, ±10 V
independently. Upon request only, please contact sales@synapticon.com
Upon Request
Two Digital IO can be configured as 5.0 V CMOS logic. Upon request only, please contact
sales@synapticon.com
Depends on the firmware used. Value given for v4.1
The actual lowest temperature is limited by the dew point. This depends on several factors, e.g. the
ambient humidity and how quick the drive cools down after operation. Special care must be taken when the
servo drive is actively cooled below ambient temperature.
1.3.2.1.3 Maximum values
The given maximum values can be achieved with a motor that is typical for robotic applications, reaching its
maximum power at 60% of its RPM maximum. This case is used as a realistic assumption to specify the
datasheet value for power. Beyond that, the servo drive itself is able to provide higher power, as it is able to
drive its maximum voltage and its maximum current at the same time. In reality, no motor can consume both
maximum values at the same time, so there is no operating point of the overall system (motor + drive) that
would actually use the theoretical maximum power of the drive. As the calculation bases on a reference
motor, there are setups with large motors that are able to even exceed the values shown here.
The maximum continuous output power and phase currents are highly dependent on the cooling situation.
Please refer to our Thermal mounting considerations for details.
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