Automatic brake control Description Automatic brake control is activated if the controller is switched to the Operation enabled state of the CiA 402 Power State Machine; the brake otherwise always remains closed. The brake output of the controller results in a PWM signal that can be adjusted with respect to frequency and duty cycle. For information on the interaction of the brake with the motor stopping behavior, see also chapter Power State machine – halt motion reactions. Activation and connection The brake can be controlled either automatically or manually: Automatic: Setting bit 2 of object 3202h to "1" activates the brake control. Manual: Setting bit 2 of object 3202h to "0" deactivates the brake control; the brake can now be controlled with bit 0 in object 60FEh:01h . Connection The brake output is located: On pin A48 of the PCI connector strip; see Pin assignment and Wiring of the outputs On connector X2 of the Discovery Board, if this is used; see Connector X2 – brake Brake control The following graphic shows the states of the CiA 402 Power State Machine together with the states of the brake for the automatic mode. The following steps are performed on the transition, which is marked with 1: The motor current is switched on. The time stored in 2038h:3h is allowed to elapse. The brake releases. The time stored in 2038h:4h is allowed to elapse. The Operation enabled state is reached, the motor controller can perform travel commands. The following steps are performed on all transitions that are marked with 2: The motor is brought to a standstill. The time stored in 2038h:1h is allowed to elapse. The brake is activated. The time stored in 2038h:2h is allowed to elapse. The motor current is switched off. Brake PWM The switched-on brake generates a PWM signal at the output of the controller that can be adjusted with respect to duty cycle and frequency. If an output pin without PWM is needed, a duty cycle of 100 percent can be set. Note: The Brake + pin of the brake output is connected to the voltage supply of the controller via the Discovery Board. If the operating voltage of the brake is greater than the supply voltage of the controller, you cannot use the brake output of the controller; you must supply the brake externally. If the supply voltage of the controller is greater than the operating voltage of the brake (and up to 48 V DC), it is recommended that the PWM controller from Nanotec with order designation EB-BRAKE-48V be used and the duty cycle of the controller brake output be set to "100". Frequency The frequency of the brake PWM can be set in object 2038h:5h. The unit is Hertz; a value greater than 2000 is not possible. Duty cycle The duty cycle – the ratio of pulse to period duration – is set in 2038h:6h. The value is a percentage and can be selected between 2 and 100. With a value of 100, the output pin is permanently switched on. In the following figure, example duty cycles of 25 and 50 percent are shown, whereby the frequency is held constant.
Automatic brake control Description Automatic brake control is activated if the controller is switched to the Operation enabled state of the CiA 402 Power State Machine; the brake otherwise always remains closed. The brake output of the controller results in a PWM signal that can be adjusted with respect to frequency and duty cycle. For information on the interaction of the brake with the motor stopping behavior, see also chapter Power State machine – halt motion reactions. Activation and connection The brake can be controlled either automatically or manually: Automatic: Setting bit 2 of object 3202h to "1" activates the brake control. Manual: Setting bit 2 of object 3202h to "0" deactivates the brake control; the brake can now be controlled with bit 0 in object 60FEh:01h . Connection The brake output is located: On pin A48 of the PCI connector strip; see Pin assignment and Wiring of the outputs On connector X2 of the Discovery Board, if this is used; see Connector X2 – brake Brake control The following graphic shows the states of the CiA 402 Power State Machine together with the states of the brake for the automatic mode. The following steps are performed on the transition, which is marked with 1: The motor current is switched on. The time stored in 2038h:3h is allowed to elapse. The brake releases. The time stored in 2038h:4h is allowed to elapse. The Operation enabled state is reached, the motor controller can perform travel commands. The following steps are performed on all transitions that are marked with 2: The motor is brought to a standstill. The time stored in 2038h:1h is allowed to elapse. The brake is activated. The time stored in 2038h:2h is allowed to elapse. The motor current is switched off. Brake PWM The switched-on brake generates a PWM signal at the output of the controller that can be adjusted with respect to duty cycle and frequency. If an output pin without PWM is needed, a duty cycle of 100 percent can be set. Note: The Brake + pin of the brake output is connected to the voltage supply of the controller via the Discovery Board. If the operating voltage of the brake is greater than the supply voltage of the controller, you cannot use the brake output of the controller; you must supply the brake externally. If the supply voltage of the controller is greater than the operating voltage of the brake (and up to 48 V DC), it is recommended that the PWM controller from Nanotec with order designation EB-BRAKE-48V be used and the duty cycle of the controller brake output be set to "100". Frequency The frequency of the brake PWM can be set in object 2038h:5h. The unit is Hertz; a value greater than 2000 is not possible. Duty cycle The duty cycle – the ratio of pulse to period duration – is set in 2038h:6h. The value is a percentage and can be selected between 2 and 100. With a value of 100, the output pin is permanently switched on. In the following figure, example duty cycles of 25 and 50 percent are shown, whereby the frequency is held constant.
Description Automatic brake control is activated if the controller is switched to the Operation enabled state of the CiA 402 Power State Machine; the brake otherwise always remains closed. The brake output of the controller results in a PWM signal that can be adjusted with respect to frequency and duty cycle. For information on the interaction of the brake with the motor stopping behavior, see also chapter Power State machine – halt motion reactions.
Activation and connection The brake can be controlled either automatically or manually: Automatic: Setting bit 2 of object 3202h to "1" activates the brake control. Manual: Setting bit 2 of object 3202h to "0" deactivates the brake control; the brake can now be controlled with bit 0 in object 60FEh:01h . Connection The brake output is located: On pin A48 of the PCI connector strip; see Pin assignment and Wiring of the outputs On connector X2 of the Discovery Board, if this is used; see Connector X2 – brake
Connection The brake output is located: On pin A48 of the PCI connector strip; see Pin assignment and Wiring of the outputs On connector X2 of the Discovery Board, if this is used; see Connector X2 – brake
Brake control The following graphic shows the states of the CiA 402 Power State Machine together with the states of the brake for the automatic mode. The following steps are performed on the transition, which is marked with 1: The motor current is switched on. The time stored in 2038h:3h is allowed to elapse. The brake releases. The time stored in 2038h:4h is allowed to elapse. The Operation enabled state is reached, the motor controller can perform travel commands. The following steps are performed on all transitions that are marked with 2: The motor is brought to a standstill. The time stored in 2038h:1h is allowed to elapse. The brake is activated. The time stored in 2038h:2h is allowed to elapse. The motor current is switched off.
Brake PWM The switched-on brake generates a PWM signal at the output of the controller that can be adjusted with respect to duty cycle and frequency. If an output pin without PWM is needed, a duty cycle of 100 percent can be set. Note: The Brake + pin of the brake output is connected to the voltage supply of the controller via the Discovery Board. If the operating voltage of the brake is greater than the supply voltage of the controller, you cannot use the brake output of the controller; you must supply the brake externally. If the supply voltage of the controller is greater than the operating voltage of the brake (and up to 48 V DC), it is recommended that the PWM controller from Nanotec with order designation EB-BRAKE-48V be used and the duty cycle of the controller brake output be set to "100". Frequency The frequency of the brake PWM can be set in object 2038h:5h. The unit is Hertz; a value greater than 2000 is not possible. Duty cycle The duty cycle – the ratio of pulse to period duration – is set in 2038h:6h. The value is a percentage and can be selected between 2 and 100. With a value of 100, the output pin is permanently switched on. In the following figure, example duty cycles of 25 and 50 percent are shown, whereby the frequency is held constant.
Frequency The frequency of the brake PWM can be set in object 2038h:5h. The unit is Hertz; a value greater than 2000 is not possible.
Duty cycle The duty cycle – the ratio of pulse to period duration – is set in 2038h:6h. The value is a percentage and can be selected between 2 and 100. With a value of 100, the output pin is permanently switched on. In the following figure, example duty cycles of 25 and 50 percent are shown, whereby the frequency is held constant.