Manufacturer specific SDOs

Objects 2000h to 3999h

Index	Sub- index	Data Type	Float Scale	Access	PDO map.	Description	ASCII object
2000h		Array				System Warnings	—
2000h	0	U8		RO	no	highest sub-index	—
2000h	1	U32		RO	no	System Warning 1	DRV.WARNING1 see "DRV.WARNING1 to DRV.WARNING3 "
2000h	2	U32		RO	no	System Warning 2	DRV.WARNING2 (see "DRV.WARNING1 to DRV.WARNING3 "
2000h	3	U32		RO	no	System Warning 3	DRV.WARNING3 (see "DRV.WARNING1 to DRV.WARNING3 "
2001h		Array				System Faults	—
2001h	0	U8		RO	no	highest sub-index	—
2001h	1	U32		RO	no	System Fault 1	DRV.FAULT1 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	2	U32		RO	no	System Fault 2	DRV.FAULT2 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	3	U32		RO	no	System Fault 3	DRV.FAULT3 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	4	U32		RO	no	System Fault 4	DRV.FAULT4 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	5	U32		RO	no	System Fault 5	DRV.FAULT5 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	6	U32		RO	no	System Fault 6	DRV.FAULT6 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	7	U32		RO	no	System Fault 7	DRV.FAULT7 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	8	U32		RO	no	System Fault 8	DRV.FAULT8 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	9	U32		RO	no	System Fault 9	DRV.FAULT9 (see "DRV.FAULT1 to DRV.FAULT10 "
2001h	A	U32		RO	no	System Fault 10	DRV.FAULT10 (see "DRV.FAULT1 to DRV.FAULT10 "
2002h		Array				Manufacturer status bytes	—
2002h	0	U8		RO	no	highest sub-index	—
2002h	1	U8		RO	yes	Manufacturer status bytes 1	—
2002h	2	U8		RO	yes	Manufacturer status bytes 2	—
2002h	3	U8		RO	yes	Manufacturer status bytes 3	—
2002h	4	U8		RO	yes	Manufacturer status bytes 4	—
2011h		VAR		RO		DRV.RUNTIME in seconds	DRV.RUNTIME (see "DRV.RUNTIME "
2012h		Array				Fault history: Fault numbers	DRV.FAULTHIST (see "DRV.FAULTHIST"
2012h	0	U8		RO	no	highest sub-index	—
2012h	1 to 20	U32		RO	no	Nth-latest entry in fault number list of fault history table	—
2013h		Array				Fault history: Time stamps	DRV.FAULTHIST (see "DRV.FAULTHIST"
2013h	0	U8		RO	no	highest sub-index	—
2013h	1 to 20	U32		RO	no	Nth-latest entry in fault time stamp list of fault history table	—
2014h		Array				Mask TxPDO Channel 1	—
2014h	1	U32		RW	no	Mask (Byte 0..3)	—
2014h	2	U32		RW	no	Mask (Byte 4..7)	—
2015h		Array				Mask TxPDO Channel 2	—
2015h	1	U32		RW	no	Mask (Byte 0..3)	—
2015h	2	U32		RW	no	Mask (Byte 4..7)	—
2016h		Array				Mask TxPDO Channel 3	—
2016h	1	U32		RW	no	Mask (Byte 0..3)	—
2016h	2	U32		RW	no	Mask (Byte 4..7)	—
2017h		Array				Mask TxPDO Channel 4	—
2017h	1	U32		RW	no	Mask (Byte 0..3)	—
2017h	2	U32		RW	no	Mask (Byte 4..7)	—
2018h		Array				Firmware version	—
2018h	0	U16		const	no	highest sub-index	—
2018h	1	U16		const	no	Major version	—
2018h	2	U16		const	no	Minor version	—
2018h	3	U16		const	no	Revision	—
2018h	4	U16		const	no	Branch version	—
2026h		Array				ASCII Channel	—
2026h	0	U8		RO	no	highest sub-index	—
2026h	1	VisStr		WO	no	Command	—
2026h	2	VisStr		RO	no	Response	—
2031h	0	VisStr		RW	no	Drive Name, length 10 bits	DRV.NAME (see "DRV.NAME "
2032h	0	VisStr		RW	no	Drive custom identifier string, length 32 byte	DRV.CUSTOM- IDENTIFIER (see "DRV.CUSTOMIDENTIFIER"
204Ch		Array				pv scaling factor	—
204Ch	0	U8		RO	no	highest sub-index	—
204Ch	1	INT32		RW	no	pv scaling factor numerator	—
204Ch	2	INT32		RW	no	pv scaling factor denominator	—
2050h	0	INT32	1:1	RO	yes	Position, secondary feedback	DRV.HANDWHEEL (see "DRV.HANDWHEEL ")
2071h	0	INT32		RW	yes*	Target current	-
2077h	0	INT32		RO	yes	Current actual value	-
207Fh	0	UINT32		RW	yes	Maximum velocity in CST-mode & PT-mode	IL"Instruction list" This is a low-level language and resembles assembly.VLIMIT (see "IL.VLIMIT"
2080h	0	U16		WO	yes	Selects motion task to be executed in profile position mode.	—
2081h	0	U16		RO	yes	Last active motion task.	—
20A0h	0	INT32	var	RO	yes	LatchThe control word is used to activate the drive's latch status machine. The latch control word is processed independently of the EtherCAT bus cycle. The status word is used to return the drive's latch status position 1, positive edge	CAP0.PLFB (see "CAP0.PLFB, CAP1.PLFB "), CAP0.T (see "CAP0.T, CAP1.T ")
20A1h	0	INT32	var	RO	yes	Latch position 1, negative edge	CAP0.PLFB (see "CAP0.PLFB, CAP1.PLFB "), CAP0.T (see "CAP0.T, CAP1.T ")
20A2h	0	INT32	var	RO	yes	Latch position 2, positive edge	CAP1.PLFB (see "CAP0.PLFB, CAP1.PLFB "), CAP1.T (see "CAP0.T, CAP1.T ")
20A3h	0	INT32	var	RO	yes	Latch position 2, negative edge	CAP1.PLFB (see "CAP0.PLFB, CAP1.PLFB "), CAP1.T (see "CAP0.T, CAP1.T ")
20A4h	0	U16		RW	yes	Latch control register	—
20A5h	0	U16		RW	yes	Latch status register	—
20A6h	0	INT32	var	RO	yes	Gets captured position value	CAP0.PLFB (see "CAP0.PLFB, CAP1.PLFB ")
20A7h	0	INT32	var	RO	yes	Gets captured position value	CAP1.PLFB (see "CAP0.PLFB, CAP1.PLFB ")
20B8h	0	U16		RW	yes	Clear changed digital input information	—
3405h		Array				VL.ARTYPE	—
3405h	0	U8		RO	no	highest sub-index	—
3405h	1	U8		RW	no	Calculation method for BiQuad filter 1	VL.ARTYPE1 (see "VL.ARTYPE1 TO VL.ARTYPE4 "
3405h	2	U8		RW	no	Calculation method for BiQuad filter 2	VL.ARTYPE2 (see "VL.ARTYPE1 TO VL.ARTYPE4 "
3405h	3	U8		RW	no	Calculation method for BiQuad filter 3	VL.ARTYPE3 (see "VL.ARTYPE1 TO VL.ARTYPE4 "
3405h	4	U8		RW	no	Calculation method for BiQuad filter 4	VL.ARTYPE4 (see "VL.ARTYPE1 TO VL.ARTYPE4 "
3406h		Array				VL BiQuad	—
3406h	0	U8		RO	no	highest sub-index	—
3406h	1	U32	1000:1	RW	no	Natural frequency of pole of anti-resonance (AR) filter 1	VL.ARPF1 (see "VL.ARPF1 TO VL.ARPF4 "
3406h	2	U32	1000:1	RW	no	Natural frequency of pole of anti-resonance (AR) filter 2	VL.ARPF2 (see "VL.ARPF1 TO VL.ARPF4 "
3406h	3	U32	1000:1	RW	no	Natural frequency of pole of anti-resonance (AR) filter 3	VL.ARPF3 (see "VL.ARPF1 TO VL.ARPF4 "
3406h	4	U32	1000:1	RW	no	Natural frequency of pole of anti-resonance (AR) filter 4	VL.ARPF4 (see "VL.ARPF1 TO VL.ARPF4 "
3406h	5	U32	1000:1	RW	no	Q of pole of anti-resonance (AR) filter 1	VL.ARPQ1 (see "VL.ARPQ1 TO VL.ARPQ4 "
3406h	6	U32	1000:1	RW	no	Q of pole of anti-resonance (AR) filter 2	VL.ARPQ2 (see "VL.ARPQ1 TO VL.ARPQ4 "
3406h	7	U32	1000:1	RW	no	Q of pole of anti-resonance (AR) filter 3	VL.ARPQ3 (see "VL.ARPQ1 TO VL.ARPQ4 "
3406h	8	U32	1000:1	RW	no	Q of pole of anti-resonance (AR) filter 4	VL.ARPQ4 (see "VL.ARPQ1 TO VL.ARPQ4 "
3406h	9	U32	1000:1	RW	no	Natural frequency of zero of anti-resonance (AR) filter 1	VL.ARZF1 (see "VL.ARZF1 TO VL.ARZF4 "
3406h	A	U32	1000:1	RW	no	Natural frequency of zero of anti-resonance (AR) filter 2	VL.ARZF2 (see "VL.ARZF1 TO VL.ARZF4 "
3406h	B	U32	1000:1	RW	no	Natural frequency of zero of anti-resonance (AR) filter 3	VL.ARZF3 (see "VL.ARZF1 TO VL.ARZF4 "
3406h	C	U32	1000:1	RW	no	Natural frequency of zero of anti-resonance (AR) filter 4	VL.ARZF4 (see "VL.ARZF1 TO VL.ARZF4 "
3406h	D	U32	1000:1	RW	no	Q of zero of anti-resonance filter 1	VL.ARZQ1 (see "VL.ARZQ1 TO VL.ARZQ4 "
3406h	E	U32	1000:1	RW	no	Q of zero of anti-resonance filter 2	VL.ARZQ2 (see "VL.ARZQ1 TO VL.ARZQ4 "
3406h	F	U32	1000:1	RW	no	Q of zero of anti-resonance filter 3	VL.ARZQ3 (see "VL.ARZQ1 TO VL.ARZQ4 "
3406h	10	U32	1000:1	RW	no	Q of zero of anti-resonance filter 4	VL.ARZQ4 (see "VL.ARZQ1 TO VL.ARZQ4 "
3407h		Struct				Velocity Filter	—
3407h	0	U8		RO	no	highest sub-index	—
3407h	1	INT32	1000:1	RW	no	10 Hz filtered VL.FB	VL.FBFILTER (see "VL.FBFILTER "
3407h	2	U32	1000:1	RW	no	Gain for the velocity feedforward	VL.KVFF (see "VL.KVFF "
3407h	3	U32		RW	no	Gain for the acceleration feedforward	VL.KBUSFF (see "VL.KBUSFF "
3407h	4	U32	1:1	RW	no	Sets the velocity error	VL.ERR (see "VL.ERR "
3412h	0	INT8		RW	no	Type of regen resistor	REGEN.TYPE (see "REGEN.TYPE "
3414h	0	U8		RW		Returns and sets the regen resistor fault level temperature.	REGEN.WATTEXT (see "REGEN.WATTEXT "
3415h	0	U32	1000:1	RO	no	Thermal regen resistor time constant	REGEN.TEXT (see "REGEN.TEXT "
3416h	0	U32		RO	no	Gets regen resistor's calculated power	REGEN.POWER (see "REGEN.POWER "
3417h	0	U32		RO	no	Returns a filtered version of 3416h	REGEN.POWER- FILTERED (see "REGEN.POWERFILTERED"
3420h	0	U16	1000:1	RW	no	Sets the foldback fault level.	IL.FOLDFTHRESH (see "IL.FOLDFTHRESH "
3421h	0	U32	1000:1	RW	no	Sets the user value for the foldback fault level.	IL.FOLDFTHRESHU (see "IL.FOLDFTHRESHU"
3422h	0	U32	1000:1		no	Sets friction compensation value.	IL.FRICTION (see "IL.FRICTION"
3423h	0	INT32	1000:1		no	A constant current command added to compensate for gravity.	IL.OFFSET (see "IL.OFFSET"
3424h	0	U16			no	Enables/disables the integrator part of the PI loop.	IL.INTEN (Password Protected)
3425h	0	U32	1000:1	RO	no	Reads the overall foldback current limit	IL.IFOLD (see "IL.IFOLD "
3426h	0	U32	1000:1	RW	no	Sets current loop acceleration feedforward gain value	IL.KACCFF (see "IL.KACCFF"
3427h		Record				Motor protection parameters	—
3427h	0	U8		RO	no	highest sub-index	—
3427h	1	U8		RW	no		IL.MIMODE (see "IL.MIMODE"
3427h	2	U8		RW	no		IL.MI2TWTHRESH (see "IL.MI2TWTHRESH"
3427h	3	U32		RW	yes		IL.MI2T (see "IL.MI2T"
3430h	0	U8		RW	no	Sets the direction for absolute motion tasks.	PL.MODPDIR (see "PL.MODPDIR")
3431h	0	U16		RW	no	Sets the motion task in the drive	MT.SET (see "MT.SET ")
3432h	0	U16		WO	no	Loads motion task for editing	MT.LOAD(see "MT.LOAD ")
3440h		Array				Controlled stop parameters	—
3440h	0	U8		RO	no	highest sub-index	—
3440h	1	U32	1:1	RW	no	Sets the deceleration value for a controlled stop.	CS.DEC (see "CS.DEC "
3440h	2	U32	1:1	RW	no	Sets the velocity threshold for a controlled stop.	CS.VTHRESH (see "CS.VTHRESH "
3440h	3	U32		RW	no	Sets the time value for the drive velocity to be within CS.VTHRESH.	CS.TO (see "CS.TO "
3441h	0	U8		RO	no	Controlled stop state	CS.STATE (see "CS.STATE "
3443h	0	U16		RO	no	Returns the possible reason for a drive disable	DRV.DIS (see "DRV.DIS "
3444h	0	U16	1000:1	RO	no	Maximum current for dynamic braking	DRV.DBILIMIT (see "DRV.DBILIMIT "
3445h	0	U32		RO	no	Emergency timeout for braking	DRV.DISTO (see "DRV.DISTO "
3450h	0	U8		RW	yes	Release or enable brake	MOTOR.BRAKERLS (see "MOTOR.BRAKERLS "
3451h	0	U8		RO	yes	Determines which drive parameters are calculated automatically.	MOTOR.AUTOSET (see "MOTOR.AUTOSET"
3452h	0	U16		RW	no	Sets the motor maximum voltage	MOTOR.VOLTMAX (see "MOTOR.VOLTMAX "
3453h	0	U32		RW	no	Sets the motor temperature warning level	MOTOR.TEMPWARN (see "MOTOR.TEMPWARN "
3454h	0	U32	1000:1	RW	no	Sets the thermal constant of the motor coil	MOTOR.CTF0 (see "MOTOR.CTF0"
3455h	0	U32	1000:1	RW	no	Sets the line-to-line motor Lq	MOTOR.LQLL (see "MOTOR.LQLL "
3456h	0	U32	1000:1	RW	no	Sets the stator winding resistance phase-phase in ohms	MOTOR.R (see "MOTOR.R "
3457h		Record				Induction Motor parameter	—
3457h	0	U8		RO	no	highest sub-index	—
3457h	1	INT32	1000:1	RW	no	Configuration of induction motor's rated velocity.	MOTOR.VRATED (see "MOTOR.VRATED"
3457h	2	U16		RW	no	Configuration of induction motor's rated voltage.	MOTOR.VOLTRATED (see "MOTOR.VOLTRATED"
3457h	3	U16		RW	no	Sets the minimum voltage for V/f Control.	MOTOR.VOLTMIN (see "MOTOR.VOLTMIN"
3458h	0	U16		RO	yes	Motor temperature for motors with sensorA sensor is a type of transducer that converts one type of energy into another for various purposes including measurement or information transfer	MOTOR.TEMPC(see "MOTOR.TEMPC"
345Ah		Array				Brake Control	—
345Ah	0	U8		RO	no	highest sub-index	—
345Ah	1	U16		RW	yes	Brake Control Command	—
345Ah	2	U16		RO	yes	Brake Status Response	—
3460h		Record				Capture engines parameters	—
3460h	0	U8		RO	no	highest sub-index	—
3460h	1	U8		RW	no	Specifies the trigger source for the position capture.	CAP0.TRIGGER (see "CAP0.TRIGGER, CAP1.TRIGGER ")
3460h	2	U8		RW	no	Specifies the trigger source for the position capture.	CAP1.TRIGGER (see "CAP0.TRIGGER, CAP1.TRIGGER ")
3460h	3	U8		RW	no	Selects the captured value.	CAP0.MODE (see "CAP0.MODE, CAP1.MODE ")
3460h	4	U8		RW	no	Selects the captured value.	CAP1.MODE (see "CAP0.MODE, CAP1.MODE ")
3460h	5	U8		RW	no	Controls the precondition logic.	CAP0.EVENT (see "CAP0.EVENT, CAP1.EVENT ")
3460h	6	U8		RW	no	Controls the precondition logic.	CAP1.EVENT (see "CAP0.EVENT, CAP1.EVENT ")
3460h	7	U8		RW	no	Selects the capture precondition edge.	CAP0.PREEDGE (see "CAP0.PREEDGE, CAP1.PREEDGE ")
3460h	8	U8		RW	no	Selects the capture precondition edge.	CAP1.PREEDGE (see "CAP0.PREEDGE, CAP1.PREEDGE ")
3460h	9	U8		RW	no	Sets the precondition trigger.	CAP0.PRESELECT (see "CAP0.PRESELECT, CAP1.PRESELECT ")
3460h	A	U8		RW	no	Sets the precondition trigger.	CAP1.PRESELECT (see "CAP0.PRESELECT, CAP1.PRESELECT ")
3460h	B	U8		RW	no	Selects the feedback source for the capture engine 0.	CAP0.FBSOURCE (see "CAP0.FBSOURCE, CAP1.FBSOURCE")
3460h	C	U8		RW	no	Selects the feedback source for the capture engine 1.	CAP1.FBSOURCE (see "CAP0.FBSOURCE, CAP1.FBSOURCE")
3470h		Record					—
3470h	0	U8		RO	no	highest sub-index	—
3470h	1	INT8		RW	no	Sets the analog output mode.	AOUT.MODE (see "AOUT.MODE "
3470h	2	INT16	1000:1	RW	yes	Reads the analog output value.	AOUT.VALUE (see "AOUT.VALUE "
3470h	3	INT16	1000:1	RW	yes	Reads and writes the analog output value.	AOUT.VALUEU (see "AOUT.VALUEU "
3470h	4	INT16	1000:1	RO	yes	Reads the value of the analog input signal.	AIN.VALUE (see "AIN.VALUE "
3470h	5	U32	1000:1	RW	no	Sets velocity scale factor for analog output	AOUT.VSCALE (see "AOUT.VSCALE "
3471h	0	U32	1:1	RW	no	Sets the analog position scale factor	AOUT.PSCALE (see "AOUT.PSCALE "
3472h	0	U32	1:1	RW	no	Sets analog pscale factor	AIN.PSCALE (see "AIN.PSCALE "
3474h		Array				DINx.PARAM	—
3474h	0	U8		RO	no	highest sub-index	—
3474h	1	U32		RW	no	Lower 32-bit part of input parameter 1	DIN1.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	2	U32		RW	no	Lower 32-bit part of input parameter 2	DIN2.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	3	U32		RW	no	Lower 32-bit part of input parameter 3	DIN3.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	4	U32		RW	no	Lower 32-bit part of input parameter 4	DIN4.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	5	U32		RW	no	Lower 32-bit part of input parameter 5	DIN5.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	6	U32		RW	no	Lower 32-bit part of input parameter 6	DIN6.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	7	U32		RW	no	Lower 32-bit part of input parameter 7	DIN7.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	8	U32		RW	no	Higher 32-bit part of input parameter 1	DIN1.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	9	U32		RW	no	Higher 32-bit part of input parameter 2	DIN2.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	A	U32		RW	no	Higher 32-bit part of input parameter 3	DIN3.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	4	U32		RW	no	Higher 32-bit part of input parameter 1	DIN1.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	5	U32		RW	no	Higher 32-bit part of input parameter 2	DIN2.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	6	U32		RW	no	Higher 32-bit part of input parameter 3	DIN3.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	B	U32		RW	no	Higher 32-bit part of input parameter 4	DIN4.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	C	U32		RW	no	Higher 32-bit part of input parameter 5	DIN5.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	D	U32		RW	no	Higher 32-bit part of input parameter 6	DIN6.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3474h	E	U32		RW	no	Higher 32-bit part of input parameter 7	DIN7.PARAM (see "DIN1.PARAM TO DIN7.PARAM"
3475h		Array				DOUTx.PARAM	—
3475h	0	U8		RO	no	highest sub-index	—
3475h	1	U32		RW	no	Lower 32-bit part of output parameter 1	DOUT1.PARAM (see "DOUT1.PARAM AND DOUT2.PARAM"
3475h	2	U32		RW	no	Lower 32-bit part of output parameter 2	DOUT2.PARAM (see "DOUT1.PARAM AND DOUT2.PARAM"
3475h	3	U32		RW	no	Higher 32-bit part of output parameter 1	DOUT1.PARAM (see "DOUT1.PARAM AND DOUT2.PARAM"
3475h	2	U32		RW	no	Higher 32-bit part of output parameter 1	DOUT1.PARAM (see "DOUT1.PARAM AND DOUT2.PARAM"
3475h	4	U32		RW	no	Hogher 32-bit part of output parameter 2	DOUT2.PARAM (see "DOUT1.PARAM AND DOUT2.PARAM"
3480h	0	U32	1000:1	RW	no	Integral gain of position regulator PID"Proportional-Integral-Derivative" A PID controller is a generic control-loop feedback mechanism widely used in industrial control systems. An "error" occurs when an event or a disturbance triggers off a change in the process variable. A PID controller attempts to correct the error between a measured process variable and a desired setpoint by calculating and then outputting a corrective action that can adjust the process accordingly loop	PL.KI (see "PL.KI "
3481h		Array				PL.INTMAX	—
3481h	0	U8		RO	no	highest sub-index	—
3481h	1	U32	1:1	RW	no	Input saturation	PL.INTINMAX (see "PL.INTINMAX "
3481h	2	U32	1:1	RW	no	Output saturation	PL.INTOUTMAX (see "PL.INTOUTMAX "
3482h	0	INT32	1:1	RO	no	Maximum value of following error in homing	HOME.PERRTHRESH (see "HOME.PERRTHRESH")
3483h	0	INT32	1:1	RW	no	Sets the position error warning level	PL.ERRWTHRESH (see "PL.ERRWTHRESH "
3484h	0	INT32	1:1	RW	no	Specification of an additional movement after homing is completed.	HOME.DIST (see "HOME.DIST")
3490h	0	INT32	1:1	RW	no	Position feedback offset	FB1.OFFSET (see "FB1.OFFSET"
3491h	0	U32		RO	no	Location of index pulse on EEO	DRV.EMUEMTURN (see "DRV.EMUEMTURN "
3492h	0	U32		RO	no	Motion status of the drive	DRV.MOTIONSTAT (see "DRV.MOTIONSTAT")
3493h	0	U8		RO	no	Direction of EEO (emulated encoder output)	DRV.EMUEDIR (see "DRV.EMUEDIR "
3494h		Record				WS parameters	—
3494h	0	U8		RO	no	highest sub-index	—
3494h	1	INT16	1000:1	RW	no	Sets maximum current used for wake and shake	WS.IMAX (see "WS.IMAX "
3494h	2	INT32	1:1	RW	no	Sets the maximum movement required for wake and shake	WS.DISTMAX (see "WS.DISTMAX "
3494h	3	U16		RW	no	Sets the delay for wake and shake between loops in mode 0	WS.TDELAY3 (see "WS.TDELAY3 "
3494h	4	INT32	1:1	RW	no	Defines the maximum allowed velocity for Wake & Shake	WS.VTHRESH (see "WS.VTHRESH "
3494h	5	U8		RO	no	Reads wake and shake status	WS.STATE (see "WS.STATE "
3494h	6	U8		RW	no	Arm Wake and Shake to start	WS.ARM (see "WS.ARM "
3495h	0	U16	1000:1	RW	no	Voltage level for undervoltage warning.	VBUS.UVWTHRESH (see "VBUS.UVWTHRESH "
3496h		Array				FBUS synchronization parameters	—
3496h	0	U8		RO	no	highest sub-index	—
3496h	1	U32		RW	no	expected time distance between clearing the PLL counter and calling the PLL function	FBUS.SYNCDIST (see "FBUS.SYNCDIST"
3496h	2	U32		RW	no	actual time distance between clearing the PLL counter and calling the PLL function	FBUS.SYNCACT (see "FBUS.SYNCACT"
3496h	3	U32		RW	no	Time window, which is used in order to consider the drive as being synchronized	FBUS.SYNCWND (see "FBUS.SYNCWND"
3496h	4	U32		RW	no	Time, which is used for extending or lowering the sample rate of the internal 16[kHz] IRQ"Interrupt ReQuest" An interrupt request refers to the act of interrupting the bus lines used to signal an interrupt	—
3498h	0	U8		RW	no	Protection level of fieldbus against other communication channels (Telnet, ModbusModBus is a serial communications protocol and is now the most commonly available means of connecting industrial electronic devices. ModBus is often used to connect a supervisory computer with a remote terminal unit in supervisory control and data acquisition (SCADA) systems. Versions of the ModBus protocol exist for serial port and Ethernet (it is widely used with TCP/IP over Ethernet)..)	FBUS.PROTECTION (see "FBUS.PROTECTION"
3499h	0	INT32		RW	yes	Set-point for stepper motor output through the emulated encoder output (EEO)	DRV.EMUSTEPCMD
34A0h		Array				PLS Position
34A0h	0	U8		RO	no	highest sub-index	—
34A0h	1	INT32	1:1	RW	no	Limit switch 1 compare value	PLS.P1 (see "PLS.P1 TO PLS.P8 ")
34A0h	2	INT32	1:1	RW	no	Limit switch 2 compare value	PLS.P2 (see "PLS.P1 TO PLS.P8 ")
34A0h	3	INT32	1:1	RW	no	Limit switch 3 compare value	PLS.P3 (see "PLS.P1 TO PLS.P8 ")
34A0h	4	INT32	1:1	RW	no	Limit switch 4 compare value	PLS.P4 (see "PLS.P1 TO PLS.P8 ")
34A0h	5	INT32	1:1	RW	no	Limit switch 5 compare value	PLS.P5 (see "PLS.P1 TO PLS.P8 ")
34A0h	6	INT32	1:1	RW	no	Limit switch 6 compare value	PLS.P6 (see "PLS.P1 TO PLS.P8 ")
34A0h	7	INT32	1:1	RW	no	Limit switch 7 compare value	PLS.P7 (see "PLS.P1 TO PLS.P8 ")
34A0h	8	INT32	1:1	RW	no	Limit switch 8 compare value	PLS.P8 (see "PLS.P1 TO PLS.P8 ")
34A1h		Array				PLS Width	—
34A1h	0	U8		RO	no	highest sub-index	—
34A1h	1	INT32	1:1	RW	no	Sets Limit Switch1 Width	PLS.WIDTH1 (see "PLS.WIDTH1 TO PLS.WIDTH8 ")
34A1h	2	INT32	1:1	RW	no	Sets Limit Switch 2 Width	PLS.WIDTH2 (see "PLS.WIDTH1 TO PLS.WIDTH8 ")
34A1h	3	INT32	1:1	RW	no	Sets Limit Switch 3 Width	PLS.WIDTH3 (see "PLS.WIDTH1 TO PLS.WIDTH8 ")
34A1h	4	INT32	1:1	RW	no	Sets Limit Switch 4 Width	PLS.WIDTH4 (see "PLS.WIDTH1 TO PLS.WIDTH8 ")
34A1h	5	INT32	1:1	RW	no	Sets Limit Switch 5 Width	PLS.WIDTH5 (see "PLS.WIDTH1 TO PLS.WIDTH8 ")
34A1h	6	INT32	1:1	RW	no	Sets Limit Switch 6 Width	PLS.WIDTH6 (see "PLS.WIDTH1 TO PLS.WIDTH8 ")
34A1h	7	INT32	1:1	RW	no	Sets Limit Switch 7 Width	PLS.WIDTH7 (see "PLS.WIDTH1 TO PLS.WIDTH8 ")
34A1h	8	INT32	1:1	RW	no	Sets Limit Switch 8 Width	PLS.WIDTH8 (see "PLS.WIDTH1 TO PLS.WIDTH8 ")
34A2h		Array				PLS Time	—
34A2h	0	U8		RO	no	highest sub-index	—
34A2h	1	U16		RW	no	Sets limit switch 1 time	PLS.T1 (see "PLS.T1 TO PLS.T8 ")
34A2h	2	U16		RW	no	Sets limit switch 2 time	PLS.T2 (see "PLS.T1 TO PLS.T8 ")
34A2h	3	U16		RW	no	Sets limit switch 3 time	PLS.T3 (see "PLS.T1 TO PLS.T8 ")
34A2h	4	U16		RW	no	Sets limit switch 4 time	PLS.T4 (see "PLS.T1 TO PLS.T8 ")
34A2h	5	U16		RW	no	Sets limit switch 5 time	PLS.T5 (see "PLS.T1 TO PLS.T8 ")
34A2h	6	U16		RW	no	Sets limit switch 6 time	PLS.T6 (see "PLS.T1 TO PLS.T8 ")
34A2h	7	U16		RW	no	Sets limit switch 7 time	PLS.T7 (see "PLS.T1 TO PLS.T8 ")
34A2h	8	U16		RW	no	Sets limit switch 8 time	PLS.T8 (see "PLS.T1 TO PLS.T8 ")
34A3h		Array				PLS Configuration	—
34A3h	0	U8		RO	no	highest sub-index	—
34A3h	1	U16		RW	no	Enables the limit switches	PLS.EN (see "PLS.EN ")
34A3h	2	U16		RW	no	Resets limit switches	PLS.RESET (see "PLS.RESET ")
34A3h	3	U16		RW	no	Selects limit switch mode	PLS.MODE (see "PLS.MODE ")
34A3h	4	U16		RW	no	Reads the limit switch state	PLS.STATE (see "PLS.STATE ")
34A4h	0	U8		RW	no	Sets limit switch units	PLS.UNITS (see "PLS.UNITS ")
34A8h	0	INT32		RW	no	Sets the Compare 0 modulo value	CMP0.MODVALUE (see "CMPx.MODVALUE"
34A9h		Array				Compare0 modulo bounds	—
34A9h	0	U8		RO	no	highest sub-index	—
34A9h	1	U8		RW	no	Compare0 modulo bound 1	CMP0.MODBOUND1 (see "CMPx.MODBOUND1"
34A9h	2	U8		RW	no	Compare0 modulo bound 2	CMP0.MODBOUND2 (see "CMPx.MODBOUND2"
34AAh		Array				CMP0 setpoints	—
34AAh	0	U8		RO	no	highest sub-index	—
34AAh	1	INT32		RW	no	Compare0 setpointSetpoint is the target value that an automatic control system, for example PID controller, will aim to reach 0	CMP0.SETPOINT 0 (see "CMPx.SETPOINT"
34AAh	2	INT32		RW	no	Compare0 setpoint 1	CMP0.SETPOINT 1 (see "CMPx.SETPOINT"
34AAh	3	INT32		RW	no	Compare0 setpoint 2	CMP0.SETPOINT 2 (see "CMPx.SETPOINT"
34AAh	4	INT32		RW	no	Compare0 setpoint 3	CMP0.SETPOINT 3 (see "CMPx.SETPOINT"
34AAh	5	INT32		RW	no	Compare0 setpoint 4	CMP0.SETPOINT 4 (see "CMPx.SETPOINT"
34AAh	6	INT32		RW	no	Compare0 setpoint 5	CMP0.SETPOINT 5 (see "CMPx.SETPOINT"
34AAh	7	INT32		RW	no	Compare0 setpoint 6	CMP0.SETPOINT 6 (see "CMPx.SETPOINT"
34AAh	8	INT32		RW	no	Compare0 setpoint 7	CMP0.SETPOINT 7 (see "CMPx.SETPOINT"
34ABh		Array				CMP0 widths	—
34ABh	0	U8		RO	no	highest sub-index	—
34ABh	1	INT32		RW	no	Compare0 width 0	CMP0.WIDTH 0 (see "CMPx.WIDTH"
34ABh	2	INT32		RW	no	Compare0 width 1	CMP0.WIDTH 1 (see "CMPx.WIDTH"
34ABh	3	INT32		RW	no	Compare0 width 2	CMP0.WIDTH 2 (see "CMPx.WIDTH"
34ABh	4	INT32		RW	no	Compare0 width 3	CMP0.WIDTH 3 (see "CMPx.WIDTH"
34ABh	5	INT32		RW	no	Compare0 width 4	CMP0.WIDTH 4 (see "CMPx.WIDTH"
34ABh	6	INT32		RW	no	Compare0 width 5	CMP0.WIDTH 5 (see "CMPx.WIDTH"
34ABh	7	INT32		RW	no	Compare0 width 6	CMP0.WIDTH 6 (see "CMPx.WIDTH"
34ABh	8	INT32		RW	no	Compare0 width 7	CMP0.WIDTH 7 (see "CMPx.WIDTH"
34ACh		Array				CMP0 widthtype	—
34ACh	0	U8		RO	no	highest sub-index	—
34ACh	1	U8		RW	no	Compare0 widthtype 0	CMP0.WIDTHTYPE 0 (see "CMPx.WIDTHTYPE"
34ACh	2	U8		RW	no	Compare0 widthtype 1	CMP0.WIDTHTYPE 1 (see "CMPx.WIDTHTYPE"
34ACh	3	U8		RW	no	Compare0 widthtype 2	CMP0.WIDTHTYPE 2 (see "CMPx.WIDTHTYPE"
34ACh	4	U8		RW	no	Compare0 widthtype 3	CMP0.WIDTHTYPE 3 (see "CMPx.WIDTHTYPE"
34ACh	5	U8		RW	no	Compare0 widthtype 4	CMP0.WIDTHTYPE 4 (see "CMPx.WIDTHTYPE"
34ACh	6	U8		RW	no	Compare0 widthtype 5	CMP0.WIDTHTYPE 5 (see "CMPx.WIDTHTYPE"
34ACh	7	U8		RW	no	Compare0 widthtype 6	CMP0.WIDTHTYPE 6 (see "CMPx.WIDTHTYPE"
34ACh	8	U8		RW	no	Compare0 widthtype 7	CMP0.WIDTHTYPE 7 (see "CMPx.WIDTHTYPE"
34ADh		Array				CMP0 modes	—
34ADh	0	U8		RO	no	highest sub-index	—
34ADh	1	U8		RW	no	Compare0 mode 0	CMP0.MODE 0 (see "CMPx.MODE"
34ADh	2	U8		RW	no	Compare0 mode 1	CMP0.MODE 1 (see "CMPx.MODE"
34ADh	3	U8		RW	no	Compare0 mode 2	CMP0.MODE 2 (see "CMPx.MODE"
34ADh	4	U8		RW	no	Compare0 mode 3	CMP0.MODE 3 (see "CMPx.MODE"
34ADh	5	U8		RW	no	Compare0 mode 4	CMP0.MODE 4 (see "CMPx.MODE"
34ADh	6	U8		RW	no	Compare0 mode 5	CMP0.MODE 5 (see "CMPx.MODE"
34ADh	7	U8		RW	no	Compare0 mode 6	CMP0.MODE 6 (see "CMPx.MODE"
34ADh	8	U8		RW	no	Compare0 mode 7	CMP0.MODE 7 (see "CMPx.MODE"
34B0h		Array				USER.DWORDS for writing of feedback memory	—
34B0h	0	U8		RO	no	highest sub-index	—
34B0h	1	U32		RW	no	FB1.USERDWORD1	FB1.USERDWORD1 (see "FB1.USERDWORD0 to FB1.USERDWORD1"
34B0h	2	U32		RW	no	FB1.USERDWORD2	FB1.USERDWORD2 (see "FB1.USERDWORD0 to FB1.USERDWORD1"
34B1h		Array				USER.WORDS for writing of feedback memory	—
34B1h	0	U8		RO	no	highest sub-index	—
34B1h	1	U16		RW	no	FB1.USERWORD1	FB1.USERWORD1 (see "FB1.USERWORD0 to FB1.USERWORD3"
34B1h	2	U16		RW	no	FB1.USERWORD2	FB1.USERWORD2 (see "FB1.USERWORD0 to FB1.USERWORD3"
34B1h	3	U16		RW	no	FB1.USERWORD3	FB1.USERWORD3 (see "FB1.USERWORD0 to FB1.USERWORD3"
34B1h	4	U16		RW	no	FB1.USERWORD4	FB1.USERWORD4 (see "FB1.USERWORD0 to FB1.USERWORD3"
34B2h		Array				USER.BYTES for writing of feedback memory	—
34B2h	0	U8		RO	no	highest sub-index	—
34B2h	1	U8		RW	no	FB1.USERBYTE1	FB1.USERBYTE1 (see "FB1.USERBYTE0 to FB1.USERBYTE7"
34B2h	2	U8		RW	no	FB1.USERBYTE2	FB1.USERBYTE2 (see "FB1.USERBYTE0 to FB1.USERBYTE7"
34B2h	3	U8		RW	no	FB1.USERBYTE3	FB1.USERBYTE3 (see "FB1.USERBYTE0 to FB1.USERBYTE7"
34B2h	4	U8		RW	no	FB1.USERBYTE4	FB1.USERBYTE4 (see "FB1.USERBYTE0 to FB1.USERBYTE7"
34B2h	5	U8		RW	no	FB1.USERBYTE5	FB1.USERBYTE5 (see "FB1.USERBYTE0 to FB1.USERBYTE7"
34B2h	6	U8		RW	no	FB1.USERBYTE6	FB1.USERBYTE6 (see "FB1.USERBYTE0 to FB1.USERBYTE7"
34B2h	7	U8		RW	no	FB1.USERBYTE7	FB1.USERBYTE7 (see "FB1.USERBYTE0 to FB1.USERBYTE7"
34B2h	8	U8		RW	no	FB1.USERBYTE8	FB1.USERBYTE8 (see "FB1.USERBYTE0 to FB1.USERBYTE7"
34B8h	0	INT32		RW	no	Sets the Compare 1 modulo value	CMP1.MODVALUE (see "CMPx.MODVALUE"
34B9h		Array				Compare1 modulo bounds	—
34B9h	0	U8		RO	no	highest sub-index	—
34B9h	1	U8		RW	no	Compare1 modulo bound 1	CMP1.MODBOUND1 (see "CMPx.MODBOUND1"
34B9h	2	U8		RW	no	Compare1 modulo bound 2	CMP1.MODBOUND2 (see "CMPx.MODBOUND2"
34BAh		Array				CMP1 setpoints	—
34BAh	0	U8		RO	no	highest sub-index	—
34BAh	1	INT32		RW	no	Compare1 setpoint 0	CMP1.SETPOINT 0 (see "CMPx.SETPOINT"
34BAh	2	INT32		RW	no	Compare1 setpoint 1	CMP1.SETPOINT 1 (see "CMPx.SETPOINT"
34BAh	3	INT32		RW	no	Compare1 setpoint 2	CMP1.SETPOINT 2 (see "CMPx.SETPOINT"
34BAh	4	INT32		RW	no	Compare1 setpoint 3	CMP1.SETPOINT 3 (see "CMPx.SETPOINT"
34BAh	5	INT32		RW	no	Compare1 setpoint 4	CMP1.SETPOINT 4 (see "CMPx.SETPOINT"
34BAh	6	INT32		RW	no	Compare1 setpoint 5	CMP1.SETPOINT 5 (see "CMPx.SETPOINT"
34BAh	7	INT32		RW	no	Compare1 setpoint 6	CMP1.SETPOINT 6 (see "CMPx.SETPOINT"
34BAh	8	INT32		RW	no	Compare1 setpoint 7	CMP1.SETPOINT 7 (see "CMPx.SETPOINT"
34BBh		Array				CMP1 widths	—
34BBh	0	U8		RO	no	highest sub-index	—
34BBh	1	INT32		RW	no	Compare1 width 0	CMP1.WIDTH 0 (see "CMPx.WIDTH"
34BBh	2	INT32		RW	no	Compare1 width 1	CMP1.WIDTH 1 (see "CMPx.WIDTH"
34BBh	3	INT32		RW	no	Compare1 width 2	CMP1.WIDTH 2 (see "CMPx.WIDTH"
34BBh	4	INT32		RW	no	Compare1 width 3	CMP1.WIDTH 3 (see "CMPx.WIDTH"
34BBh	5	INT32		RW	no	Compare1 width 4	CMP1.WIDTH 4 (see "CMPx.WIDTH"
34BBh	6	INT32		RW	no	Compare1 width 5	CMP1.WIDTH 5 (see "CMPx.WIDTH"
34BBh	7	INT32		RW	no	Compare1 width 6	CMP1.WIDTH 6 (see "CMPx.WIDTH"
34BBh	8	INT32		RW	no	Compare1 width 7	CMP1.WIDTH 7 (see "CMPx.WIDTH"
34BCh		Array				CMP1 widthtype	—
34BCh	0	U8		RO	no	highest sub-index	—
34BCh	1	U8		RW	no	Compare1 widthtype 0	CMP1.WIDTHTYPE 0 (see "CMPx.WIDTHTYPE"
34BCh	2	U8		RW	no	Compare1 widthtype 1	CMP1.WIDTHTYPE 1 (see "CMPx.WIDTHTYPE"
34BCh	3	U8		RW	no	Compare1 widthtype 2	CMP1.WIDTHTYPE 2 (see "CMPx.WIDTHTYPE"
34BCh	4	U8		RW	no	Compare1 widthtype 3	CMP1.WIDTHTYPE 3 (see "CMPx.WIDTHTYPE"
34BCh	5	U8		RW	no	Compare1 widthtype 4	CMP1.WIDTHTYPE 4 (see "CMPx.WIDTHTYPE"
34BCh	6	U8		RW	no	Compare1 widthtype 5	CMP1.WIDTHTYPE 5 (see "CMPx.WIDTHTYPE"
34BCh	7	U8		RW	no	Compare1 widthtype 6	CMP1.WIDTHTYPE 6 (see "CMPx.WIDTHTYPE"
34BCh	8	U8		RW	no	Compare1 widthtype 7	CMP1.WIDTHTYPE 7 (see "CMPx.WIDTHTYPE"
34BDh		Array				CMP1 modes	—
34BDh	0	U8		RO	no	highest sub-index	—
34BDh	1	U8		RW	no	Compare1 mode 0	CMP1.MODE 0 (see "CMPx.MODE"
34BDh	2	U8		RW	no	Compare1 mode 1	CMP1.MODE 1 (see "CMPx.MODE"
34BDh	3	U8		RW	no	Compare1 mode 2	CMP1.MODE 2 (see "CMPx.MODE"
34BDh	4	U8		RW	no	Compare1 mode 3	CMP1.MODE 3 (see "CMPx.MODE"
34BDh	5	U8		RW	no	Compare1 mode 4	CMP1.MODE 4 (see "CMPx.MODE"
34BDh	6	U8		RW	no	Compare1 mode 5	CMP1.MODE 5 (see "CMPx.MODE"
34BDh	7	U8		RW	no	Compare1 mode 6	CMP1.MODE 6 (see "CMPx.MODE"
34BDh	8	U8		RW	no	Compare1 mode 7	CMP1.MODE 7 (see "CMPx.MODE"
34C0h		Array				Compare0 handling	—
34C0h	0	U8		RO	no	highest sub-index	—
34C0h	1	U16		RW	no	Compare0 arm setpoints	CMP0.ARM 0..7 (see "CMPx.ARM"
34C0h	2	U16		RW	no	Compare0 states	CMP0.STATE 0..7 (see "CMPx.STATE"
34C1h		Array				Compare1 handling	—
34C1h	0	U8		RO	no	highest sub-index	—
34C1h	1	U16		RW	no	Compare1 arm setpoints	CMP1.ARM 0..7 (see "CMPx.ARM"
34C1h	2	U16		RW	no	Compare1 states	CMP1.STATE 0..7 (see "CMPx.STATE"
3501h	0	INT32	1:1	RW	no	Acceleration ramp	DRV.ACC, also see 6083h
3502h	0	INT32	1:1	RW	no	Acceleration ramp for homing/jog modes	HOME.ACC (see "HOME.ACC")
3506h	0	INT32			no	Action that hardware enable digital input will perform.	DRV.HWENMODE (see "DRV.HWENMODE"
3509h	0	INT32	1000:1	RO	no	Analog input voltage	AIN.VALUE (see "AIN.VALUE "
3522h	0	INT32	1:1	RW	no	Deceleration rate	DRV.DEC, also see 6084h
3524h	0	INT32	1:1	RW	no	Deceleration ramp for homing/jog modes	HOME.DEC (see "HOME.DEC")
352Ah	0	INT32		RW	no	Direction of movements	DRV.DIR (see "DRV.DIR "
3533h	0	U32		RO	no	Resolution of motor encoder	FB1.ENCRES (see "FB1.ENCRES "
3534h	0	U32		RO	no	Mode of EEO connector	DRV.EMUEMODE (see "DRV.EMUEMODE "
3535h	0	U32		RO	no	Resolution of EEO	DRV.EMUERES (see "DRV.EMUERES "
3537h	0	U32		RO	no	Location of EEO index pulse	DRV.EMUEZOFFSET (see "DRV.EMUEZOFFSET "
353Bh	0	INT32		RO	no	Selection of the feedback type	FB1.SELECT (see "FB1.SELECT "
3542h	0	U32	1000:1	RW	no	Position Control Loop: Proportional Gain	PL.KP (see "PL.KP "
3548h	0	U32	1000:1	RW	no	Velocity Control Loop: Proportional Gain	VL.KP (see "VL.KP "
354Bh	0	INT32	1000:1	RW	no	Sets the velocity loop velocity feedforward gain value	VL.KVFF (see "VL.KVFF "
354Dh	0	INT32	1000:1	RW	no	Velocity Control Loop: I-Integration Time	VL.KI (see "VL.KI "
3558h	0	INT32	1000:1	RO	no	Current Monitor	IL.FB (see "IL.FB "
3559h	0	INT32	1000:1	RO	no	Drive Ifold	IL.DIFOLD (see "IL.DIFOLD "
355Ah	0	INT32	1000:1	RW	no	I2T Warning	IL.FOLDWTHRESH (see "IL.FOLDWTHRESH "
3562h	0	INT32		RW	no	FunctionA function calculates a result according to the current value of its inputs. A function has no internal data and is not linked to declared instances. of Digital Input 1	DIN1.MODE (see "DIN1.MODE TO DIN7.MODE"
3565h	0	INT32		RW	no	Function of Digital Input 2	DIN2.MODE (see "DIN1.MODE TO DIN7.MODE"
3568h	0	INT32		RW	no	Function of Digital Input 3	DIN3.MODE (see "DIN1.MODE TO DIN7.MODE"
356Bh	0	INT32		RW	no	Function of Digital Input 4	DIN4.MODE (see "DIN1.MODE TO DIN7.MODE"
356Eh	0	INT32	1000:1	RW	no	Application Peak Current, positive direction	IL.LIMITP (see "IL.LIMITP "
356Fh	0	INT32	1000:1	RW	no	Application Peak Current, negative direction	IL.LIMITN (see "IL.LIMITN "
3586h	0	U32		RW	no	Sets the motor temperature fault level	MOTOR.TEMPFAULT (see "MOTOR.TEMPFAULT "
3587h	0	INT32		RW	no	Select Motor Holding Brake	MOTOR.BRAKE (see "MOTOR.BRAKE "
358Eh	0	U32	1000:1	RW	no	Motor Continuous Current Rating	MOTOR.ICONT (see "MOTOR.ICONT "
358Fh	0	U32	1000:1	RW	no	Motor Peak Current Rating	MOTOR.IPEAK (see "MOTOR.IPEAK "
3593h	0	U32	1000:1	RW	no	Sets the torqueTorque is the tendency of a force to rotate an object about an axis. Just as a force is a push or a pull, a torque can be thought of as a twist constant of the motor	MOTOR.KT (see "MOTOR.KT "
3596h	0	U32	1000:1	RO	no	Sets the proportional gain of the d-component current PI-regulator as a percentage of IL.KP	IL.KPDRATIO (see "IL.KPDRATIO "
3598h	0	INT32	1000:1	RW	no	Absolute Gain of Current Control loop	IL.KP (see "IL.KP "
359Ch	0	U32		RW	no	Sets the motor phase.	MOTOR.PHASE (see "MOTOR.PHASE "
359Dh	0	U32		RW	no	Sets the number of motor poles	MOTOR.POLES (see "MOTOR.POLES "
35A3h	0	U32		RW	no	Sets the maximum motor speed	MOTOR.VMAX (see "MOTOR.VMAX "
35A4h	0	INT32	1000:1	RW	no	Maximum motor current	IL.MIFOLD (see "IL.MIFOLD "
35ABh	0	U32	1000:1	RW	no	Sets the motor inertia	MOTOR.INERTIA (see "MOTOR.INERTIA "
35AFh	0	U32		RW	no	Sets the digital output 1 mode	DOUT1.MODE (see "DOUT1.MODE and DOUT2.MODE"
35B2h	0	U32		RW	no	Sets the digital output 2 mode	DOUT2.MODE (see "DOUT1.MODE and DOUT2.MODE"
35B4h	0	INT32		RW	no	Operating Mode	DRV.OPMODE (see "DRV.OPMODE "
35B8h	0	U32		RW	no	Table number for motion task	MT.TNUM (see "MT.TNUM")
35B9h	0	INT32		RW	no	Control for Motion Task 0	MT.CNTL (see "MT.CNTL")
35BCh	0	INT32		RW	no	Next Task Number for Motion Task 0	MT.MTNEXT (see "MT.MTNEXT ")
35BDh	0	U32		RW	no	Time to next motion task	MT.TNEXT (see "MT.TNEXT")
35C2h	0	INT32		RW	no	Select regen resistor	REGEN.REXT (see "REGEN.REXT "
35C5h	0	INT32	1:1	RO	no	Actual Following Error	PL.ERR (see "PL.ERR "
35C6h	0	INT32	1:1	RW	no	In-Position Window (profile position mode)	MT.TPOSWND (see "MT.TPOSWND")
35C7h	0	INT32	1:1	RW	no	Max. Following Error	PL.ERRFTHRESH (see "PL.ERRFTHRESH "
35CAh	0	INT32		RW	no	Position Resolution (Numerator)	UNIT.PIN (see "UNIT.PIN ")
35CBh	0	INT32		RW	no	Position Resolution (Denominator)	UNIT.POUT (see "UNIT.POUT ")
35CFh	0	INT32		RW	no	reserved	PL.MODPEN (see "PL.MODPEN")
35D2h	0	U32		RO	no	Mechanical Position	FB1.MECHPOS (see "FB1.MECHPOS "
35E2h	0	U32	1:1	RW	no	Sets the current limit during homing procedure to a mechanical stop	HOME.IPEAK (see "HOME.IPEAK")
35EBh	0	INT32		WO	no	Save Data in EEPROM	DRV.NVSAVE (see "DRV.NVSAVE "
35F0h	0	INT32		WO	no	Set Reference Point	HOME.SET (see "HOME.SET")
35FEh	0	INT32		WO	no	Stop Motion Task	DRV.STOP (see "DRV.STOP "
35FFh	0	U32		RW	no	Selects between disable immediately or stop and then disable	DRV.DISMODE (see "DRV.DISMODE"
3610h	0	INT32		RO	no	Ambient Temperature	DRV.TEMPERATURES (see "DRV.TEMPERATURES "
3611h	0	INT32		RO	no	Heat Sink Temperature	DRV.TEMPERATURES (see "DRV.TEMPERATURES "
3612h	0	INT32		RO	no	Motor Temperature	MOTOR.TEMP (see "MOTOR.TEMP "
3617h	0	U32	1:1	RW	no	Undervoltage mode	VBUS.UVMODE (see "VBUS.UVMODE "
3618h	0	INT32	1:1	RO	no	Actual Velocity	VL.FB (see "VL.FB "
361Ah	0	INT32		RO	no	DC-bus voltage	VBUS.VALUE (see "VBUS.VALUE "
361Dh	0	U32	1000:1	RW	no	Voltage level for undervoltage fault	VBUS.UVFTHRESH (see "VBUS.UVFTHRESH "
3622h	0	INT32	1:1	RW	no	Max. Velocity	VL.LIMITP (see "VL.LIMITP "
3623h	0	INT32	1:1	RW	no	Max. Negative Velocity	VL.LIMITN (see "VL.LIMITN "
3627h	0	INT32	1:1	RW	no	Overspeed	VL.THRESH (see "VL.THRESH "
3629h	0	INT32	1000:1	RW	no	SW1 Velocity Scaling Factor	AIN.VSCALE (see "AIN.VSCALE "
3637h	0	INT32	1:1	RW	no	reserved	PL.MODP1 (see "PL.MODP1 ")
3638h	0	INT32	1:1	RW	no	reserved	PL.MODP2 (see "PL.MODP2 ")
3656h	0	U64	1:1	RW	no	Initial feedback position	FB1.ORIGIN (see "FB1.ORIGIN "
3659h	0	INT32		RW	no	Type of acceleration setpoint for the system	UNIT.ACCROTARY (see "UNIT.ACCROTARY ")
365Bh	0	INT32		RW	no	Presetting for motion task that is processed later	MT.NUM (see "MT.NUM ")
365Fh	0	INT32		RW	no	Systemwide Definition of Velocity/Speed	UNIT.VROTARY (see "UNIT.VROTARY ")
3660h	0	INT32		RW	no	Set Resolution of the Position	UNIT.PROTARY (see "UNIT.PROTARY ")
366Eh	0	INT32		RW	no	Disable Delaytime with Holding Brake	MOTOR.TBRAKEAPP (see "MOTOR.TBRAKEAPP "
366Fh	0	INT32		RW	no	Enable Delaytime with Holding Brake	MOTOR.TBRAKERLS (see "MOTOR.TBRAKERLS "
3683h	0	U16		RW	no	Delay for wake and shake timing	WS.TDELAY1 (see "WS.TDELAY1 "
3685h	0	U16		RW	no	Sets delay for wake and shake timing	WS.TDELAY2 (see "WS.TDELAY2 "
36D0h	0	U16		RW	no	Sets wake and shake current-vector appliance time	WS.T (see "WS.T "
36D1h	0	U32	1:1	RW	no	Sets the minimum movement required for wake and shake	WS.DISTMIN (see "WS.DISTMIN "
36D7h	0	U32	1000:1	RW	no	Sets homing auto move flag	HOME.AUTOMOVE (see "HOME.AUTOMOVE")
36E2h	0	U8		RW	no	Sets the number of repetitions for wake and shake	WS.NUMLOOPS (see "WS.NUMLOOPS "
36E5h	0	U32		RW	no	CAN"Controller area network" CAN is a broadcast, differential serial bus standard developed for connecting electronic control units. Each node is able to send and receive messages, but not simultaneously baud rate selection	FBUS.PARAM01 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36E6h	0	U32		RW	no	pll synchronization	FBUS.PARAM02 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36E7h	0	U32		RW	no	-	FBUS.PARAM03 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36E8h	0	U32		RW	no	SYNC surveillance	FBUS.PARAM04 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36E9h	0	U32		RW	no	-	FBUS.PARAM05 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36EAh	0	U32		RW	no	-	FBUS.PARAM06 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36EBh	0	U32		RW	no	-	FBUS.PARAM07 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36ECh	0	U32		RW	no	-	FBUS.PARAM08 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36EDh	0	U32		RW	no	-	FBUS.PARAM09 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36EEh	0	U32		RW	no	-	FBUS.PARAM10 (see "FBUS.PARAM1 TO FBUS.PARAM10"
36F6h	0	INT32		RW	no	Function of Digital Input 5	DIN5.MODE (see "DIN1.MODE TO DIN7.MODE"
36F9h	0	INT32		RW	no	Function of Digital Input 6	DIN6.MODE (see "DIN1.MODE TO DIN7.MODE"
36FCh	0	U32		RW	no	Function of Digital Input 7	DIN7.MODE (see "DIN1.MODE TO DIN7.MODE"
3856h	0	INT32	1:1	RW	no	velocity window for profile position mode	MT.TVELWND (see "MT.TVELWND")