Power Control Panel - V2

Name: Power Control Panel - V2
Brand: Studica Robotics
SKU: 70171
Price: 299.00 USD
Availability: InStock
Rating: 5.0 (1 reviews)

The Studica Robotics Power Control Panel V2 is a redesigned robotics power management solution built for advanced STEM, educational, competition, and research robotics platforms. Designed to safely control and distribute power from batteries to motors, sensors, and controllers, this panel provides reliable high-current power handling with integrated emergency stop functionality and illuminated operator controls.

Supporting input voltages from 12V to 30V DC and capable of handling up to 60A output current, the Power Control Panel V2 is ideal for robotics systems requiring dependable power routing and safety integration. The panel includes dedicated outputs for controllers and light towers, high-current power distribution connections, and easy-access emergency stop and reset controls.

Built for robotics education, engineering labs, autonomous systems, and competition robots, the Power Control Panel V2 simplifies wiring and enhances operational safety while maintaining clean system organization.

MFR Part #: 70171

$299.00

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Overview

Specifications

Feature	Spec	Notes
Input Voltage	12 to 30 VDC	If using > 12VDC a new fan is required.
Input Current Main Connector	Max 60A	Power connectors are parallel
Input Current Secondary Connectors	Max 45A each	Power connectors are parallel
Max Wattage	500 W	The board and heatsink have been tested to be safe up to 500 W
Max Current Main Output	60 A
Max Current Controller and Light Tower	17 A

Callout	Name	What it’s for	Notes
1	High Current Power Input	Primary High Current Power Input	Use either of the power inputs; all are tied in parallel. Connector can support up to 60A.
2	Secondary Power Input	Lower Current Power Input	Use either of the power inputs; all are tied in parallel. Connector can support up to 45A.
3	Power Switch Input	Power switch cables route here to turn the panel on and off	This is the main power switch for the entire robot.
4	Cooling Fan	Keeps the heatsink cool	Fan is 12V, if using 24V a fan replacement is required.
5	E-Stop	Controls power to the high current output	Hitting the E-Stop will only turn off power to the high current output. Controller and Light Tower power will remain.
6	Power Switch	Power switch for the entire robot	Power no longer flows through the switch and instead the switch is used as a gate control.
7	E-Stop Input	Where the E-Stop wires route to	E-Stop port for the wires coming from the E-Stop.
8	Controller and Light Tower Output Power	Output power to the Light Tower and Controller	This power stays on when E-Stop is pushed. Only way to turn off is with main power switch.
9	High Current Power Output	Primary High Current Power Output	Provides output power to the rest of the robot. Suggested to be wired direct to the High Current Power Distribution Board.
10	Stop Button	A button that can be used by the user	Provides a Red LED and NO / NC Momentary interface.
11	Reset Button	A button that can be used by the user	Provides a Yellow LED and NO / NC Momentary interface.
12	Start Button	A button that can be used by the user	Provides a Green LED and NO / NC Momentary interface.

STEP file

Specifications

Feature	Spec	Notes
Input Voltage	12 to 30 VDC	If using > 12VDC a new fan is required.
Input Current Main Connector	Max 60A	Power connectors are parallel
Input Current Secondary Connectors	Max 45A each	Power connectors are parallel
Max Wattage	500 W	The board and heatsink have been tested to be safe up to 500 W
Max Current Main Output	60 A
Max Current Controller and Light Tower	17 A

Callout	Name	What it’s for	Notes
1	High Current Power Input	Primary High Current Power Input	Use either of the power inputs; all are tied in parallel. Connector can support up to 60A.
2	Secondary Power Input	Lower Current Power Input	Use either of the power inputs; all are tied in parallel. Connector can support up to 45A.
3	Power Switch Input	Power switch cables route here to turn the panel on and off	This is the main power switch for the entire robot.
4	Cooling Fan	Keeps the heatsink cool	Fan is 12V, if using 24V a fan replacement is required.
5	E-Stop	Controls power to the high current output	Hitting the E-Stop will only turn off power to the high current output. Controller and Light Tower power will remain.
6	Power Switch	Power switch for the entire robot	Power no longer flows through the switch and instead the switch is used as a gate control.
7	E-Stop Input	Where the E-Stop wires route to	E-Stop port for the wires coming from the E-Stop.
8	Controller and Light Tower Output Power	Output power to the Light Tower and Controller	This power stays on when E-Stop is pushed. Only way to turn off is with main power switch.
9	High Current Power Output	Primary High Current Power Output	Provides output power to the rest of the robot. Suggested to be wired direct to the High Current Power Distribution Board.
10	Stop Button	A button that can be used by the user	Provides a Red LED and NO / NC Momentary interface.
11	Reset Button	A button that can be used by the user	Provides a Yellow LED and NO / NC Momentary interface.
12	Start Button	A button that can be used by the user	Provides a Green LED and NO / NC Momentary interface.

STEP file