Variador

Parámetros Varispeed Modelo 616G5

Parámetro	Descripción	Valor por Defecto del Fabricante del Variador	Configuración del Fabricante de la CNC	Configuración Retrofit	Unidad de Medida
A1-00	Select Language	1	4
A1-01	Access Level	2	4
A1-02	Control Method	2	0
A1-03	Init Parameters	0	0
A1-04	Enter Password	0	0
A1-05	Select Password	0	0
A2-01	User Parameter 1		0		h
A2-02	User Parameter 2		0		h
A2-03	User Parameter 3		0		h
A2-04	User Parameter 4		0		h
A2-05	User Parameter 5		0		h
A2-06	User Parameter 6		0		h
A2-07	User Parameter 7		0		h
A2-08	User Parameter 8		0		h
A2-09	User Parameter 9		0		h
A2-10	User Parameter 10		0		h
A2-11	User Parameter 11		0		h
A2-12	User Parameter 12		0		h
A2-13	User Parameter 13		0		h
A2-14	User Parameter 14		0		h
A2-15	User Parameter 15		0		h
A2-16	User Parameter 16		0		h
A2-17	User Parameter 17		0		h
A2-18	User Parameter 18		0		h
A2-19	User Parameter 19		0		h
A2-20	User Parameter 20		0		h
A2-21	User Parameter 21		0		h
A2-22	User Parameter 22		0		h
A2-23	User Parameter 23		0		h
A2-24	User Parameter 24		0		h
A2-25	User Parameter 25		0		h
A2-26	User Parameter 26		0		h
A2-27	User Parameter 27		0		h
A2-28	User Parameter 28		0		h
A2-29	User Parameter 29		0		h
A2-30	User Parameter 30		0		h
A2-31	User Parameter 31		0		h
A2-32	User Parameter 32		0		h
B1-01	Reference Source	1	2	1
B1-02	Run Source	1	2	1
B1-03	Stopping Method	0	0
B1-04	Reverse Oper	0	0
B1-05	Zero-Speed Oper	0	0
B1-06	Cntl Input Scan	1	0
B1-07	Cycle Extrn RUN	0	0
B1-08	RUN CMD at PRG	0	0
B1-09	L/R Select@Drive		0
B2-01	DCInj Start Freq	0.5	0.5		Hz
B2-02	DCInj Current	50	50		%
B2-03	DCInj Time @Start	0	0		sec
B2-04	DCInj Time @Stop	0.5	0.5		sec
B2-05	DCInj P Gain		.05
B2-06	DCIntgl Time		100		msec
B2-07	DCInj Limit		15		%
B2-08	Field Comp@start	0	0		%
B3-01	SpdSrch at Start	0	0
B3-02	SpdSrch Current	100	150		%
B3-03	SpdSrch Dec Time	2	2		sec
B3-04	SpdSrch V/F		100		%
B4-01	Delay-ON Timer	0	0		sec
B4-02	Delay-OFF Timer	0	0		sec
B5-01	PID Mode	0	0
B5-02	PID Gain	1	1
B5-03	PID I Time	1	1		sec
B5-04	PID I Limit	100	100		%
B5-05	PID D Time	0	0		sec
B5-06	PID Limit	100	100		%
B5-07	PID Offset	0	0		%
B5-08	PID Delay Time	0	0		sec
B5-09	Output Level Sel	0	0
B5-10	Output Gain	1	1
B5-11	Output Rev Sel	0	0
B5-12	Fb los Det Sel	0	0
B5-13	Fb los Det Lvl	0	0		%
B5-14	Fb los Det Time	1	1		sec
B6-01	Dwell Ref @ Start	0	0		Hz
B6-02	Dwell Time @ Start	0	0		sec
B6-03	Dwell Ref @ Stop	0	0		Hz
B6-04	Dwell Time @ Stop	0	0		sec
B7-01	Droop gain	0	0		%
B7-02	Droop Delay Time	0.05	0.05		sec
B8-01	Energy Save Gain	80	80		%
B8-02	Energy Save Freq	0	0		Hz
B8-03	Energy Save Sel		0
B8-04	Energy Save Gain		0
B8-05	Energy Save F,T		0		sec
B9-01	Zero Servo Gain	5	5
B9-02	Zero Servo Count	10	10
C1-01	Accel Time 1	10	4	2	sec
C1-02	Decel Time 1	10	4	3	sec
C1-03	Accel Time 2	10	10		sec
C1-04	Decel Time 2	10	10		sec
C1-05	Accel Time 3	10	10		sec
C1-06	Decel Time 3	10	10		sec
C1-07	Accel Time 4	10	10		sec
C1-08	Decel Time 4	10	10		sec
C1-09	Fast Stop Time	10	5	3	sec
C1-10	Acc/Dec Units	1	1
C1-11	Acc/Dec SW Freq	0	0	0	Hz
C2-01	SCrv Acc@ Start	0.20	2.5		sec
C2-02	SCrv Acc@ End	0.20	0.2		sec
C2-03	SCrv Dec@ Start	0.20	0		sec
C2-04	SCrv Dec@ End	0	0		sec
C3-01	Slip Comp Gain	1	0		sec
C3-02	Slip Comp Time	200	2000		msec
C3-03	Slip Comp Limit	200	200		%
C3-04	Slip Comp Regen	0	0
C3-05	Flux Detect	0	0
C3-06	Output V limit	0	0
C4-01	Torq Comp Gain	1	0
C4-02	Torq Comp Time	20	200		msec
C4-03	F TorqCmp@start	0	0		%
C4-04	R TorqCmp@start	0	0		%
C4-05	TorqCmp Delay T	10	10		msec
C5-01	ASR P Gain 1	20	0
C5-01	ASR I Time 1	0.5	1		sec
C5-03	ASR P Gain 2	20	0.2
C5-04	ASR I Time 2	0.5	1		sec
C5-05	ASR Limit	0	5		%
C5-06	ASR Delay Time	0.004	0		sec
C5-07	ASR Gain SW Freq	0	0		Hz
C5-08	ASR I Limit	400	400		%
C6-01	Carrier Freq Max	15	10		KHz
C6-02	Carrier Freq Min	15	10		KHz
C6-03	Carrier Freq Gain	0	0
C7-01	Hunt Prev Select	1	0
C7-02	Hunt Prev Gain	1	1
C7-03	Hunt Prev Time		10		msec
C7-04	Hunt Prev Limit		5		%
C8-01	ACR Feedbk Gain		1
C8-02	ACR q Gain		0.1
C8-03	ACR q I Time		0		msec
C8-04	ACR q Limit		5		%
C8-05	ACR d Gain		0.5
C8-06	ACR D I Time		0		msec
C8-07	ACR d Limit		5		%
C8-08	AFR gain	1	1
C8-09	AFR Time	50	50		msec
C8-10	AFR Limit		5		Hz
C8-11	V Drop Comp Dly		1		sec
C8-12	AVR Time		1000		msec
C8-13	PWM Method		1
C8-14	IGBT Volt Drop		0		V
C8-15	On-Delay Time		4		usec
C8-16	On-Delay Comp		0		usec
C8-17	DCCT Filter Time		0		usec
C8-18	Pwr Angle Filt 1		20		msec
C8-19	Pwr Angle Filt 2		60		msec
C8-20	Simulation Mode		0
C8-21	Flux Observer		1
C8-22	Observer Comp		0.6
C8-23	Observer Filter		1		sec
C8-24	Observer Volt Comp		40
C8-25	Observer I Time		2		msec
C8-26	Observer Gain		1.2
C8-27	Inv Rate Current		27		A
C8-28	DCCT Gain		0.918
C8-29	Phase SW Level		1.5
C8-30	Carrier in tune	2	2
C8-31	Tuning Mode Sel		0
D1-01	Reference 1	0	0		Hz
D1-02	Reference 2	0	0		Hz
D1-03	Reference 3	0	0		Hz
D1-04	Reference 4	0	0		Hz
D1-05	Reference 5	0	0		Hz
D1-06	Reference 6	0	0		Hz
D1-07	Reference 7	0	0		Hz
D1-08	Reference 8	0	0		Hz
D1-09	Jog Reference	6	6		Hz
D2-01	Ref Upper Limit	100	100		%
D2-02	Ref Lower Limit	0	0		%
D3-01	Jump freq 1	0	0		Hz
D3-02	Jump freq 2	0	0		Hz
D3-03	Jump freq 3	0	0		Hz
D3-04	Jump Bandwidth	1	1		Hz
D4-01	MOP Ref Memory	0	0
D4-02	Trim Control LvI	25	25		%
D5-01	Torq Control Sel	0	0
D5-02	Torq Ref Filter	0	0		msec
D5-03	Speed Limit Sel	1	1
D5-04	Speed Lmt Value	0	0		%
D5-05	Speed Lmt Bias	10	10		%
D5-06	Ref Hold Time	0	0		msec
E1-01	Input Voltage	200	400	400	VAC
E1-02	Motor Selection	0	1
E1-03	V/f Selection	F	15	F	h
E1-04	Max Frequency	60	800	800.0	Hz
E1-05	Max Voltage	200	380	380	VAC
E1-06	Base Frequency	60	400	400	Hz
E1-07	Mid Frequency A	3	0	0	Hz
E1-08	Mid Voltage A	11	0	0	VAC
E1-09	Min Frequency	0.5	0	0	Hz
E1-10	Min Voltage	2	15	10	VAC
E1-11	Mid Frequency B	0	0	0.0	Hz
E1-12	Mid Voltage B	0	0	0.0	VAC
E1-13	Base Voltage	0	0	0.0	VAC
E1-14	Max Frequency Select	0	0	0
E2-00	Motor Selection	0	0	0	-
E2-01	Motor Rated FLA	1.9	27.5	27.5	A
E2-02	Motor Rated Slip	2.9	2.9		Hz
E2-03	No-Load Current	1.2	0	0	A
E2-04	Number of Poles	4	4	4	pole
E2-05	Term Resistance	9.842	0.922	0.922	Ω
E2-06	Leak Inductance	18.2	18.2	18.2	%
E2-07	Saturation Comp 1	0.5	0.5	0.5
E2-08	Saturation Comp 2	0.75	0.75	0.75
E2-09	Mechanical Loss	0	0	0	%
E2-10	Tcomp Iron Loss	14	385	385	W
E3-01	Control Method	2	0	0
E4-01	V/F2 Max Freq	60	50	50	Hz
E4-02	V/F2 Max Voltage	200	400	400	V
E4-03	V/F2 Base Freq	60	50	50	Hz
E4-04	V/F2 Mid Freq	3	2.5	2.5	Hz
E4-05	V/F2 Mid Voltage	11	28	28	V
E4-06	V/F2 Min Freq	0.5	1.2	1.2	Hz
E4-07	V/F2 Min Voltage	2	14	14	V
E5-01	Motor 2 Rated FLA	1.9	19.9	19.9	A
E5-02	Motor 2 Slip Freq	2.9	1.7	1.7	Hz
E5-03	Motor 2 No-load I	1.2	5.6	5.6	A
E5-04	Motor 2 # Poles	4	4	4	pole
E5-05	Motor 2 term Ohms	9.842	0.9842		Ω
E5-06	Motor 2 Leak	18.2	19.6	19.6	%
F1-01	PG Pulses/Rev	600	1024	1024
F1-02	PG Fdbk Loss Sel	1	1	1
F1-03	PG Overspeed Sel	1	1	1
F1-04	PG Deviation Sel	3	3	3
F1-05	PG Rotation Sel	0	0	0
F1-06	PG Output Ratio	1	1	1
F1-07	PG Ramp PI/I Sel	0	0	0
F1-08	PG Overspd Level	115	115	115	%
F1-09	PG Overspd Time	0	10	10
F1-10	PG Deviate Level	10	10	10	%
F1-11	PG Deviate Time	0.5	0.5	0.5	sec
F1-12	PG# Gear Teeth 1	0	0	0
F1-13	PG# Gear Teeth 2	0	0	0
F1-14	PGO Detect Time	2	2	2	sec
F1-15	Spd Detection Filter Select	0	0	0
F2-01	AI-14 Input Sel	0	0	0
F3-01	DI Input	0	0	0
F4-01	AO Ch1 Select	2	2	2
F4-02	AO Ch1 Gain	1	1	1
F4-03	AO Ch2 Select	3	3	3
F4-04	AO Ch2 Gain	0.5	0.5	0.5
F4-05	AO Ch1 Bias	0	0	0	%
F4-06	AO Ch2 Bias	0	0	0	%
F5-01	DO-02 Ch1 Select	0	0	0	h
F5-02	DO-02 Ch2 Select	1	1	1	h
F6-01	DO-08 Selection	0	0	0
F7-01	PO-36F Selection	1	1	1
F8-01	E-15 Det Sel	1	1	1
F9-01	EF0 Selection	0	0	0
F9-02	EF0 Detection	0	0	0
F9-03	EF0 Fault Action	1	1	1
F9-04	Trace Sample Time	0	0	0
F9-05	Torq Ref/Lmt Sel	1	1	1
F9-06	BUS Fault Sel	1	1	1
H1-01	Terminal 3 Sel	24	23	23
H1-02	Terminal 4 Sel	14	102	102
H1-03	Terminal 5 Sel	3	3	3
H1-04	Terminal 6 Sel	4	4	4
H1-05	Terminal 7 Sel	6	6	6
H1-06	Terminal 8 Sel	8	8	8
H1-07	Sel External BB	0	0	0
H2-01	Terminal 9 Sel	0	0	0
H2-02	Terminal 25 Sel	1	7	7
H2-03	Terminal 26 Sel	2	2	2
H3-01	Term 13 Signal	0	0	0
H3-02	Term 13 Gain	100	100	680	%
H3-03	Term 13 Bias	0	0	0	%
H3-04	Term 16 Signal	0	0	0
H3-05	Term 16 Sel	0	0	0
H3-06	Term 16 Gain	100	100	100	%
H3-07	Term 16 Bias	0	0	0	%
H3-08	Term 14 Signal	2	2	2
H3-09	Term 14 Sel	1F	31	31
H3-10	Term 14 Gain	100	100	100	%
H3-11	Term 14 Bias	0	0	0	%
H3-12	Filter Avg Time	0	0	0	sec
H4-01	Term 21 Sel	2	2	2
H4-02	Term 21 Gain	1	1	1
H4-03	Term 21 Bias	0	0	0	%
H4-04	Term 23 Sel	3	3	3
H4-05	Term 23 Gain	0.5	0.5	0.5
H4-06	Term 23 Bias	0	0	0	%
H4-07	AO Level Select	0	0	0
H5-01	Serial Comm Adr	1F	1	1
H5-02	Serial Baud Rate	3	3	3
H5-03	Serial Com Sel	0	1	1
H5-04	Serial Fault Sel	3	0	0
H5-05	Serial Flt Dfct	1	0	0
L1-01	MOL Fault Select	1	1	1
L1-02	MOL Time Const	1	1	1	min
L2-01	PwrL Selection	0	0	0
L2-02	PwrL Ridethru t	0.7	2	2	sec
L2-03	PwrL Baseblock t	0.5	0.7	0.7	sec
L2-04	PwrL V/V Ramp t	0.3	0.3	0.3	sec
L2-05	PUV Det Level	190	420	420	V
L2-06	KEB Decel Rate	0	0	0	%
L3-01	StallP Accel Sel	1	0	0
L3-02	StallP Accel Lvl	150	170	170	%
L3-03	StallP CHP Lvl	50	50	50	%
L3-04	StallP Decel Sel	1	0	0
L3-05	StallP Run Sel	1	1	1
L3-06	StallP Run Level	160	160	160	%
L3-07	StallP Gain	1	1	1
L3-08	StallP lntg Time	100	100	100	msec
L4-01	Spd Agree Level	0	0	0	Hz
L4-02	Spd Agree Width	2	2	2	Hz
L4-03	Spd Agree Lvl+	0	0	0	Hz
L4-04	Spd Agree Wdth +	2	2	2	Hz
L4-05	Ref Loss Sel	0	0	0
L5-01	Num of Restarts	0	0	0	times
L5-02	Restart Sel	0	0	0
L5-03	Max Restart Time	10	10	10	sec
L6-01	Torq Det1 Sel	0	2	2
L6-02	Torq Det1 Lvl	150	160	160	%
L6-03	Torq Det1 Time	0.1	0.1	0.1	sec
L6-04	Torq Det2 Sel	0	4	4
L6-05	Torq Det2 Lvl	150	195	195	%
L6-06	Torq Det2 Time	0.1	1	1	sec
L7-01	Torq Limit Fwd	200	200	200	%
L7-02	Torq Limit Rev	200	200	200	%
L7-03	Torq Lmt Fwd Rgn	200	200	200	%
L7-04	Torq Lmt Rev Rgn	200	200	200	%
L7-05	Torq Limit Gain		2	2
L7-06	Torq Limit Time		200	200	msec
L8-01	DB Resistor Prot	0	0	0
L8-02	OH Pre-Alarm Lvl	95	95	95	deg
L8-03	OH Pre-Alarm Sel	3	3	3
L8-04	OH1 Fault Level		105	105	deg
L8-05	Ph Loss In Sel	0	1	1
L8-06	Ph Loss In Lvl		7.5	7.5	%
L8-07	Ph Loss Out Sel	0	0	0
L8-08	Ph Loss Out Lvl		5	5	%
L8-09	Short Circuit Sel		1	1
L8-10	Ground Fault Sel	1	1	1
L8-11	Inverter OL Sel		1	1
L8-12	AVR Selection		1	1
L8-13	Test Mode		0	0
L8-14	UV3 Select		1	1
L8-15	Low Spd OL2 Freq		6	6
L8-16	OL2 0Hz Gain		50	50
L8-17	L-Spd IGBT Prtct	1	0	0
L8-18	L-Spd Carrier F		4	4	KHz
L8-19	OL2 Chara@ L-Spd	0	1	1
O1-01	Monitor Select	6	6	6
O1-02	Power-On Monitor	1	2	2
O1-03	Display Scaling	0	0	0
O1-04	Display Units	0	0	0
O1-05	Address Display	0	0	0
O2-01	LOCAL/REMOTE Key	1	1	1
O2-02	Oper STOP Key	1	1	1
O2-03	User Defaults	0	0	0
O2-04	Inverter Model #	0	40	40	h
O2-05	Operator M.O.P.	0	0	0
O2-06	Oper Detection	0	0	0
O2-07	Elapsed Time Set	0	0	0	hour
O2-08	Elapsed Time Run	0	0	0
O2-09	Init Model Sel	0	2	2

La inicializacion se hace con 2 wires B1-02

Caracteristicas del Motor

Asynchronous Triphase Motor
V =	220	380	380	380
Hz =	233	400	500	800
rpm =	7000	12000	15000	24000
KW (s1) =	9	15	15	6
A =	34	34	34	17.4
cos φ =	0.82
η =	0.85
poli =	4

Terminales del Variador 616G5

Tipo	No.	Signal Name	Function	Signal Level	Conexión I/O
Sequence input signals	1	Forward run/stop command	Forward run when CLOSED; stopped when OPEN.	24 VDC, 8 mA Photocoupler isolation
	2	Reverse run/stop command	Reverse run when CLOSED; stopped when OPEN.
	3	External fault input	Fault when CLOSED; normal when OPEN.
	4	Fault reset	Reset when CLOSED
	5	Multi-step speed reference 1 (Master/auxiliary switch)	Auxiliary frequency reference when CLOSED.
	6	Multi-step speed reference 2	Multi-step setting 2 when CLOSED.
	7	Jog frequency reference	Jog run when CLOSED.
	8	External baseblock	Inverter output stopped when CLOSED.
	11	Sequence input common	-
Analog input signals	15	15 V power output	15 V power supply for analog references	15 V (Max. current: 20 mA)
	33	−15 V power output	−15 V power supply for analog references	−15 V (Max. current: 20 mA)
	13	Master speed frequence reference	−10 to 10 V/−100% to 100% 0 to 10 V/100%	−10 to 10 V (20 kΩ),0 to 10 V (20 kΩ)
	14	Master speed frequence reference	4 to 20 mA/100%, −10 to +10 V/−100% to 100% 0 to +10 V/100%	4 to 20 mA (250 Ω)
	16	Multi-function analog input	−10 to 10 V/−100% to 100% 0 to 10 V/100%	−10 to 10 V (20 kΩ), 0 to 10 V (20 kΩ)
	17	Control common	-	-
	12	Shield wire, optional ground line connection point	-	-
Sequence output signals	9	Running signal (1NO contact)	Operating when CLOSED.	Dry contacts Contact capacity:1 A max. at 250 VAC 1 A max. at 30 VDC
	10	Running signal (1NO contact)	Operating when CLOSED.	Dry contacts Contact capacity:1 A max. at 250 VAC 1 A max. at 30 VDC
	25	Zero speed detection	Zero level (b2-01) or below when CLOSED	Open-collector output 50 mA max. at 48 V*
	26	Speed agree detection	Within ±2 Hz of set frequency when CLOSED.	Open-collector output 50 mA max. at 48 V*
	27	Open-collector output common	-	Open-collector output 50 mA max. at 48 V*
	18	Fault output signal (SPDT)	Fault when CLOSED across 18 and 20 Fault when OPEN across 19 and 20	Dry contacts Contact capacity: 1 A max.max at 250 VAC 1 A max. at 30 VDC
	19	Fault output signal (SPDT)	Fault when CLOSED across 18 and 20 Fault when OPEN across 19 and 20	Dry contacts Contact capacity: 1 A max.max at 250 VAC 1 A max. at 30 VDC
	20	Fault output signal (SPDT)	Fault when CLOSED across 18 and 20 Fault when OPEN across 19 and 20	Dry contacts Contact capacity: 1 A max.max at 250 VAC 1 A max. at 30 VDC
Analog output signals	21	Frequency output	0 to 10 V/100% frequency	0 to ± 10 V max. ± 5% 2 mA max.
	22	Common	-	0 to ± 10 V max. ± 5% 2 mA max.
	23	Current monitor	5 V/Inverter’s rated current	0 to ± 10 V max. ± 5% 2 mA max.