V5 High Performance Universal Inverter/ Vector Control 0.4kW-3000kW

V5 High Performance Universal Inverter/ Vector Control 0.4kW-3000kW

Delivery Time:

with 20 days after deposit

Port of loading:

shenzhen,shanghai

Sample provide:

yes

Sample free:

yes

Sample freight payer:

buyer

Term of payment:

t/t,l/c

Delivery Time:

with 20 days after deposit

Port of loading:

shenzhen,shanghai

Sample provide:

yes

*Send an Inquiry to this supplier

Supplier Info.

Company Name： Shenzhen V&T Technologies Co.Ltd.

Registration Date： 2006

Country / Region： guangdong / China

City： shenzhen

Main Products： variable frequency drive,servo drive,ev motor controller

Product Detail

Representative Industry

Printing Packaging, Petrochemical, Textile, Cable Machinery, Machine Equipment, Food Packaging, Electric Vehicles, Washing Equipment, Plastic Machinery, Metal Products Equipment, Centrifuges and the applications of required open-loop vector.
For examples, ChangQing Oilfield, LiaoHe Oilfield, ShengLi Oilfield,Oritcranes Group, KaiShan compressor Group, MOBO Kompressoren Group, China Railway and Bridge Construction Corporation, JiangSu Sealion Group.

◪Open loop vector control technology with high performance.
◪Inverter operates stably without tripping under any acceleration and deceleration time and any impact load..
◪Independent input and output port of high speed pulse, which can realize high speed pulse cascade function.
◪Accurate speed identification and rotor flux orientation, the torque can also respond quickly and operate stably when a load of 0.25hz breaks.
◪High-precision current detection and protection, high-precision hall to detect output current, realization of fast real-time control and protection of software and hardware, and assurance of performance and reliability of the whole machine.

Product Overview

Product Overview

V5-H series is a high-performance vector control inverter. The product adopts open-loop vector control technology which is completely synchronized with the most advanced technology in the world. It has the excellent control performance with the international high-end frequency converter.At the same time, It is combined with the use characteristics of China, and the reliability and environmental adaptability of the products are further strengthened, and the customized and professional design greatly meet the needs of various transmission applications.

Model Explanation

product-VT Technologies-img

Product Catalogue

◪V5−H−4T□□□G Three−phase 400V Constant torque/heavy−duty application

Power (kW)		0.75	1.5	2.2	3.7	5.5	7.5	11	15	18.5	22	30	37	45	55	75
Motor power (kW)		0.75	1.5	2.2	3.7	5.5	7.5	11	15	18.5	22	30	37	45	55	75
Output	Voltage (V)	Three−phase 0 to rated input voltage
	Rated current (A)	2.5	3.8	5.5	9	13	17	24	30	39	45	60	75	91	112	150
	Overload capacity	150% 1 minute, 180% 10 seconds, 200% 0.5 second, interval: 10 minutes (inverse time lag feature)
Input	Ratedvoltage/frequency	Three−phase 380V/480V; 50Hz/60Hz
	Allowable voltage range	323V ~ 528V; Voltage imbalance ≤3%; allowable frequency fluctuation: ±5%
	Rated current (A)	2.8	4.2	6.1	10	15	19	26	33	43	50	66	83	100	123	165
Braking unit		Built−in as standard								Built−in as option
Protection class		IP20
Cooling mode		Natural−cooling		Forced air cooling
Power (kW)		90	110	132	160	185	200	220	250	280	315	355	400	450	500
Motor power (kW)		90	110	132	160	185	200	220	250	280	315	355	400	450	500
Output	Voltage (V)	Three−phase 0 to rated input voltage
	Rated current (A)	176	210	253	304	350	380	426	470	520	600	650	690	775	860
	Overload capacity	150% 1 minute, 180% 10 seconds, 200% 0.5 second, interval: 10 minutes (inverse time lag feature)
Input	Rated voltage/frequency	Three−phase 380V/480V; 50Hz/60Hz
	Allowable voltage range	323V ~ 528V; Voltage imbalance ≤3%; allowable frequency fluctuation: ±5%
	Rated current (A)	160*	196*	232*	282*	326*	352*	385*	437*	491*	580*	624*	670*	755*	840*
Braking unit		External braking unit needed
Protection class		IP20
Cooling mode		Forced air cooling

※V5−H−4T90G and higher products are equipped with external DC reactor as standard.

◪V5−H−4T□□□L Three−phase 400V Variable torque/light−duty application

Power (kW)		0.75	1.5	2.2	3.7	5.5	7.5	11	15	18.5	22	30	37	45	55	75
Motor power (kW)		0.75	1.5	2.2	3.7	5.5	7.5	11	15	18.5	22	30	37	45	55	75
Output	Voltage (V)	Three-phase 0 to rated input voltage
	Rated current (A)	2.5	3.8	5.5	9	13	17	24	30	39	45	60	75	91	112	150
	Overload capacity	150% 1 minute, 180% 10 seconds, 200% 0.5 second, interval: 10 minutes (inverse time lag feature)
Input	Rated voltage/frequency	Three-phase 380V/480V; 50Hz/60Hz
	Allowable voltage range	323V ~ 528V; Voltage imbalance ≤3%; allowable frequency fluctuation: ±5%
	Rated current (A)	2.8	4.2	6.1	10	15	19	26	33	43	50	66	83	100	123	165
Braking unit		Built-in as standard								Built-in as option
Protection class		IP20
Cooling mode		Natural−cooling		Forced air cooling
Power (kW)		90	110	132	160	185	200	220	250	280	315	355	400	450	500
Motor power (kW)		90	110	132	160	185	200	220	250	280	315	355	400	450	500
Output	Voltage (V)	Three-phase 0 to rated input voltage
	Rated current (A)	176	210	253	304	350	380	426	470	520	600	650	690	775	860
	Overload capacity	150% 1 minute, 180% 10 seconds, 200% 0.5 second, interval: 10 minutes (inverse time lag feature)
Input	Rated voltage/frequency	Three-phase 380V/480V; 50Hz/60Hz
	Allowable voltage range	323V ~ 528V; Voltage imbalance ≤3%; allowable frequency fluctuation: ±5%
	Rated current (A)	160*	196*	232*	282*	326*	352*	385*	437*	491*	580*	624*	670*	755*	840*
Braking unit		External braking unit needed
Protection class		IP20
Cooling mode		Forced air cooling

※V5−H−4T90G and higher power products are equipped with external DC reactor as standard.

◪V5−H−4T□□□L Three−phase 400V Constant torque/heavy−duty application

Power (kW)		1.5	2.2	3.7		5.5	7.5	11	15	18.5	22		30	37	45	55	75	90
Motor power (kW)		1.5	2.2	3.7		5.5	7.5	11	15	18.5	22		30	37	45	55	75	90
Output	Voltage (V)	Three-phase 0 to rated input voltage
	Rated current (A)	3.3	5.0	7.5		11	17	22	30	37	44		56	72	91	110	142	176
	Overload capacity	115% 1 minute, 160% 0.5 second, interval: 10 minutes (inverse time lag feature)
Input	Rated voltage/frequency	Three-phase 380V/480V; 50Hz/60Hz
	Allowable voltage fluctuation range	323V ~ 528V; Voltage imbalance: ≤3%; allowable frequency fluctuation: ±5%
	Rated current (A)	3.6	5.5	8.3		12	19	25	33	40	50		62	80	100	121	156	194
Braking unit		Built-in as standard										Built-in as option
Protection class		IP20
Cooling mode		Natural-cooling			Forced air cooling
Power (kW)		110	132	160		185	200	220	250	280	315		355	400	450	500	560
Motor power (kW)		110	132	160		185	200	220	250	280	315		355	400	450	500	560
Output	Voltage (V)	Three-phase 0 to rated input voltage
	Rated current (A)	210	253	304		350	380	426	470	520	600		650	690	775	860	950
	Overload capacity	115% 1 minute, 160% 0.5 second, interval: 10 minutes (inverse time lag feature)
Input	Rated voltage/frequency	Three-phase 380V/480V; 50Hz/60Hz
	Allowable voltage range	323V ~ 528V; Voltage imbalance ≤3%; allowable frequency fluctuation: ±5%
	Rated current (A)	196*	232*	282*		326*	352*	385*	437*	491*	580*		624*	670*	755*	840*	920*
Braking unit		External braking unit needed
Protection class		IP20
Cooling mode		Forced air convection cooling

※V5−H−4T90G and higher products are equipped with external DC reactor as standard.

Power (kW)		0.4	0.75	1.5	2.2
Motor power (kW)		0.4	0.75	1.5	2.2
Output	Voltage (V)	Three-phase 0 to rated input voltage
	Rated current (A)	3	5	7.5	10
	Overload capacity	150% 1 minute, 180% 10 seconds, 200% 0.5 second, interval: 10 minutes (inverse time lag feature)
Input	Rated voltage/frequency	Three-phase or single-phase 200V~240V; 50Hz/60Hz
	Allowable voltage range	180V ~ 260V; Voltage imbalance ≤3%; allowable frequency fluctuation: ±5%
	Rated current (A)	3.8	5.5	8.3	12
*Braking unit		Built-in as standard
Protection class		IP20
Cooling mode		Natural-cooling		Forced air cooling

Installation Dimension

◪Product appearance, installation dimensions, approximate weight

product-VT Technologies-V5 High Performance Universal Inverter Vector Control 04kW-3000kW-img

V5−H−2T0.4G～V5−H−2T2.2G、V5−H−4T7.5G/11L And lessen these power grade

product-V5 High Performance Universal Inverter Vector Control 04kW-3000kW-VT Technologies-img

V5−H−4T11G/15L And more than these power grade

◪Product appearance, installation dimensions, approximate weight

Voltage	Model	Appearance, Installation Dimensions（mm）								Weight （kg）
		W	H	D	W1	H1	D1	T1	Hole d
200V	V5−H−2T0.4G	118	190	155	105	173	40.8	3	5.5	1.5
	V5−H−2T0.75G			175			60.5	4		2.2
	V5−H−2T1.5G			155			40.8	3		1.5
	V5−H−2T2.2G			175			60.5	4		2.2
400V	V5−H−4T0.75G/1.5L	118	190	155	105	173	40.8	3	5.5	1.5
	V5−H−4T1.5G/2.2L	118	190	175	105	173	60.5	4	5.5	2.6
	V5−H−4T2.2G/3.7L
	V5−H−4T3.7G/5.5L
	V5−H−4T5.5G/7.5L	155	249	185	136	232	69	8	5.5	3
	V5−H−4T7.5G/11L
	V5−H−4T11G/15L	210	337	200	150	324	88	2	7	8.5
	V5−H−4T15G/18.5L
	V5−H−4T18.5G/22L	289	440	220	200	425	88	2.5	7	17
	V5−H−4T22G/30L
	V5−H−4T30G/37L
	V5−H−4T37G/45L	319	575	218	220	553	90.5	2.5	10	25
	V5−H−4T45G/55L
	V5−H−4T55G/75L	404	615	255	270	590	86.5	3.0	10	35
	V5−H−4T75G/90L
	V5−H−4T90G V5−H−4T110L	465	745	325	343	715	151.5	3.0	12	55
	V5−H−4T110G V5−H−4T132L
	V5−H−4T132G V5−H−4T160L	540	890	385	370	855	205.5	4.0	14	85
	V5−H−4T160G V5−H−4T185L
	V5−H−4T185G V5−H−4T200L
	V5−H−4T200G V5−H−4T220L
	V5−H−4T220G V5−H−4T250L	700	1010	385	520	977	210	4.0	14	125
	V5−H−4T250G V5−H−4T280L
	V5−H−4T280G V5−H−4T315L
	V5−H−4T315G V5−H−4T355L	810	1358	425	520	1300	210	4.0	14	215
	V5−H−4T355G V5−H−4T400L
400V	V5−H−4T400G V5−H−4T450L	810	1358	425	520	1300	210	4.0	14	215
	V5−H−4T450G V5−H−4T500L
	V5−H−4T500G V5−H−4T560L

Selection specifications

The correct selection of the frequency converter is very important for the normal operation of the control system. When selecting an inverter, you must fully understand the load characteristics driven by the inverter. People often divide production machinery into three types in practice: constant torque load, constant power load, and fan and water pump load.

Constant torque load:

The load torque TL has nothing to do with the speed n, and TL always remains constant or substantially constant at any speed. For example, frictional loads such as conveyors, mixers, extruders, and potential energy loads such as cranes and elevators are all constant torque loads.

When the inverter drags a load of constant torque, the torque at low speed must be large enough and have sufficient overload capacity. If you need to run at a stable speed at low speed, the heat dissipation capacity of a standard asynchronous motor should be considered to avoid excessive temperature rise of the motor.

Constant power load:

The torque required by machine tool spindles, rolling mills, paper machines, coilers and uncoilers in plastic film production lines is generally inversely proportional to the speed, which is the so-called constant power load. The constant power nature of the load should be in terms of a certain speed variation range. When the speed is very low, due to the limitation of the mechanical strength, the TL cannot increase infinitely, and it turns into a constant torque property at low speed. The constant power zone and constant torque zone of the load have a great influence on the selection of the transmission scheme. When the motor is in constant magnetic flux speed regulation, the maximum allowable output torque does not change, which belongs to constant torque speed regulation; while in the field weakening speed regulation, the maximum allowable output torque is inversely proportional to speed and belongs to constant power speed regulation. If the constant torque and constant power speed range of the motor is consistent with the constant torque and constant power range of the load, that is, the so-called "matching", the capacity of the motor and the capacity of the inverter are the smallest.

Fan and pump load:

In various fans, water pumps, and oil pumps, as the impeller rotates, the resistance generated by air or liquid in a certain speed range is approximately proportional to the power of the power n. As the speed decreases, the speed decreases by the power of the second power. The power required for this load is proportional to the third power of speed. When the required air volume and flow are reduced, the inverter can be used to adjust the air volume and flow through the speed regulation method, which can greatly save energy. Because the power required at high speed increases too quickly with the speed, it is proportional to the cube of the speed, so the fan and pump load should not normally be operated beyond the power frequency.

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