DIGITAL SERVO DRIVES FOR BRUSHLESS AC MOTORS XtrapulsEasy 60V DB "Safe Torque Off" manual XtrapulsEasy™ 60VDC DB STO Safe Torque Off manual
Open the catalog to page 1XtrapulsEasy 60V DB "Safe Torque Off" manual ! This manual describes a series of servo drives having output capability suitable for driving AC brushless sinusoidal servo motors. Please see also: o o o o XtrapulsEasy™ Installation Guide for the hardware installation of the drive (mounting, wiring, ...) XtrapulsEasy™ User Guide for the operation of the drive (commissioning, configuration, ...) XtrapulsEasy™ 60 VDC DB Installation manual for the embedded module version Gem Drive Studio software Quick Start manual for the drive parameterization. Instructions for storage, use after storage, commissioning...
Open the catalog to page 2XtrapulsEasy 60 V DB "Safe Torque Off" manual Information and sorting instructions regarding INFRANOR® products Sorting instructions may vary according to regions / countries. INFRANOR does not assume any responsibility for any physical or material damage due to improper handling or wrong descriptions of the ordered items. Any intervention on the items, which is not specified in the manual, will immediately cancel the warranty. Infranor reserves the right to change any information contained in this manual without notice.
Open the catalog to page 3XtrapulsEasy 60V DB "Safe Torque Off" manual
Open the catalog to page 4XtrapulsEasy 60V DB "Safe Torque Off" manual Chapter 1 - General description Safe Torque Off (STO) definition according to the EN 61800-5-2 standard: "Power, that can cause the rotation of a motor (or displacement in the case of a linear motor), is not applied to the motor. The drive will not provide energy to the motor which can generate torque (or force in the case of a linear motor)". Used alone, the STO function corresponds to an uncontrolled stopping in accordance with the stop category 0 of the EN 60204-1 standard. The STO function may be used where power removal is required to prevent...
Open the catalog to page 5XtrapulsEasy 60V DB "Safe Torque Off" manual 2.1 - FUNCTIONAL DIAGRAM The "Safe Torque Off" function allows keeping the motor shaft free by avoiding the IGBT module commutation. This is achieved by means of two techniques: - IGBT command supply removal, - PWM removal. PWM INTELLIGENT POWER MODULE BUFFER The different parts of the functional diagram are described below: • • The green part is the channel of the safety function. PWM signals are disabled by inhibiting the buffer commutation. The black part is the functional part of the drive which is not used to achieve the safety function. 2.2 -...
Open the catalog to page 6XtrapulsEasy 60 V DB "Safe Torque Off" manual Since the STO function performs the motor power removal without shutting down the power supply, take care that electrical risks are remaining when the STO function is active or inactive. In applications with vertical axes, additional measures (mechanical brake) may be necessary. Please, refer to the EN13849-2 standard for any complementary information. 2.2.2.1 - Inputs - Outputs connector: X10 2.2.2.2 - Specification of logic input IN4 The STO function has an activation / release response time of max. 50ms. However, an additional delay of 6.5ms is...
Open the catalog to page 7XtrapulsEasy 60 V DB "Safe Torque Off" manual Used alone, the STO function corresponds to an uncontrolled stop in accordance with stop category 0 of the EN 60204-1 standard (see 3.1 - Example 1: Stop category 0). So, this function is suited for machines with low inertia or high resistive torque. When using high inertia or low resistive torque machines, the user should initiate a controlled stop. To achieve a controlled stop in accordance with stop category 1 of the EN 60204-1 standard (see 3.2 - Example 2: Stop category 1), the control system of the machine must generate the following sequences:...
Open the catalog to page 8XtrapulsEasy 60V DB "Safe Torque Off" manual 2.2.5 - Periodic inspection routines The well-working of the function needs to be checked at least once a year and during the validation of the machine safety functions. The goal of this procedure is to verify that all subsystems of the safety function are operational. The command system must integrate a checking mode reserved to an operator aware of potential risks due to a wrong operation of the safety system. It is highly recommended to get the operator signing a register in order to sensitize him. STEP N° 1 2 MOTOR Powered Free STATE DESCRIPTION...
Open the catalog to page 9XtrapulsEasy 60 V DB "Safe Torque Off" manual The following diagram examples are given to make the integration of the safety function easier. The integration of the STO function must be the result of a risk analysis of the global machine.3.1 - EXAMPLE 1: STOP CATEGORY 0 ACCORDING TO EN 60204-13.1.1 - Hardware configurationLow inertia axis application / high resistive torque XtrapulsEasy-ak-60/XX-DB Motor temp Motor temp. Power relay remote control Use only copper conductors for the wiring terminations. The torque values of the wiring terminations must comply with the certified block terminal...
Open the catalog to page 10XtrapulsEasy 60 V DB "Safe Torque Off" manual Select Rising edge in the “Enable” configuration Link IN1 to ENABLE function Easy-230-17_2 Inputs/Outputs configuration Basic digital inputs configuration Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Reversed polarity Physical input POSITIVE LIMIT SWITCH NEGATIVE LIMIT SWITCH HOME SWITCH QUICK...
Open the catalog to page 11XtrapulsEasy 60 V DB "Safe Torque Off" manual © IN FRANOR®3.2 - EXAMPLE 2: STOP CATEGORY 1 ACCORDING TO EN 60204-1 3.2.1 - Hardware configuration High inertia axis application / low resistive torque In the following example, a safe Stop 1 is performed. The delay between the deceleration ramp and the STO activation is safe. The deceleration ramp is not safe according to EN13849-1 because it uses a common drive function. Motor temp Motor temp Use only copper conductors for the wiring terminations The torque values of the wiring terminations must comply with the certified block terminal In the connection...
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