Emerson ev1000 инструкция на русском

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EV1000 Series General Purpose Variable Speed Drive

User Manual

Version

V2.1

Revision Date

September 21, 2006

BOM

31011127

Emerson Network Power provides customers with technical support. Users may contact the nearest Emerson local sales

office or service center.

Emerson Network Power Co., Ltd.

Address: No.1 Kefa Rd., Science & Industry Park, Nanshan District 518057, Shenzhen China

Homepage: www.emersonnetworkpower.com.cn

Customer Service Hotline: +86 755 86010581

Complaint Hotline: +86 755 86010800

E-mail: support@emersonnetwork.com.cn

Summary of Contents for Emerson EV1000-2S0004G

Источник

Устройство:
Emerson 1000

Размер: 1,65 MB
Добавлено: 2014-05-30 12:12:00

Количество страниц: 32
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Источник

Chapter 5 Parameters

The reference value is based on 10V (i.e. 10V means 100%

input) ; and the feedback value is based on 20mA (20mA

corresponds to 100% output) .

Close-loop characteristic is selected through F5.16 to satisfy

different applications.

In order to meet the control requirements, the motor’s speed

should be increased with reference speed. This kind of

control characteristic is called positive response. If the motor

speed is required to be decreased when the reference value

is increased, this control characteristic is called negative

response.

See Figure 5-32. F5.16 defines the two characteristics.

Speed

Figure 5-32 Close-loop Control Characteristics

After the system type is determined, the following

procedures can be used to determine the close loop

parameters:

Determine the close-loop reference and feedback

channel (F5.01 and F5.02) ;

Define the relationship between close-loop reference

and feedback value (F5.08~F5.11) ;

Determine the speed reference of speed close-loop

control and the number of revolutions of PG

(F5.06~F5.07) ;

Determine the close-loop regulation characteristic, that

is, if the motor speed decreases while the input

reference increases, then the close-loop control

characteristic should be set to negative (F5.16=1) ;

Set integral regulation and close-loop frequency

(F5.17~F5.19) ;

Adjust close-loop filter time, sampling cycle, bias limit

and gain factor (F5.12~F5.15) .

F5.00 Close loop control

0: disabled

1: enabled

F5.01 Reference input method Range: 0~4 【 1 】

0: digital setting

Take the value of F5.05 (set analog close loop feedback,

F5.02＝0~5) ;

Take the value of F5.06, (set pulse close loop feedback,

F5.02＝6) .

1: VCI (0~10V)

2: CCI

Positive

Negative

Close loop

reference

Range: 0, 1 【 0 】

EV1000 Series General Purpose Variable Speed Drive User Manual

Pay attention to the setting of jumper CN10.

3: Keypad

4: PULSE

Note

The motor speed is controlled by pulse feedback. Given analog

input 10V (20mA) or max. input frequency F1.03, the output

pulse will be max. frequency F0.05, which corresponds to the

motor synchronous speed n

F5.02 Feedback method

0: VCI analog voltage 0~10V

1: CCI analog input

2: VCI + CCI

3: VCI-CCI

4: Min {VCI,CCI}

5: Max {VCI, CCI}

When current input is selected, the signal will be converted

to voltage signal, whose value is determined by the formula:

Vout=mA/2;

F5.02=6, pulse

It can be single-phase or 2-phase PG close loop feedback.

Please refer to multi-function input terminal X4, X5

(F7.03~F7.04) .

F5.03 Input filter

F5.04 Feedback filter

Both the input signal and feedback signal have some noise

signals. These signals can be filtered by setting the time

constant of filter (settings of F5.03 and F5.04) . The bigger

the time constant, the better the immunity capability, but the

response becomes slow. The smaller the time constant, the

faster the response, but the immunity capability becomes

weak.

F5.05 Digital reference input

When analog feedback is selected (F5.02=0~5) , this

function allows parameter setting from keypad or serial port.

F5.06 Speed close-loop setting

When PG pulse feedback is selected (F5.02=6) , speed can

be set through keypad or serial port.

F5.07 Pulse number per

revolution of encoder

Please set this parameter according to the characteristics of

the pulse encoder.

F5.08 Min. input

F5.09 Feedback of min. input

F5.10 Max. input

F5.11 Feedback of max. input

F5.08~F5.11 define the relation of analog close loop input

and feedback. The values of the above parameters are

＝120fmax/P) .

Range: 0~6 【 1 】

Range: 0.01~50.00s 【 0.50s 】

Range: 0.00~10.00V 【 0.00 】

Range: 0~39000rpm 【 0 rpm 】

Range: 1~9999 【 1024 】

Range: 0.0%~F5.10 【 0.0% 】

Range: 0.0~100.0% 【 20.0% 】

Range: F5.08~100.0% 【 100.0% 】

Range: 0.0~100.0% 【 100.0% 】

Источник

EV1000

E1-20040225-C-1.2 BOM31010942

www.emersonnetworkpower.com.cn

0755-86010800

E-mailinfo@emersonnetwork.com.cn

518057


			1	4.2.1	LED ……………………..	24
		4.2.2		24
		2	………………………………………..
4.2.3		25
1.1		2
4.2.4		25
1.2		2
4.2.5		27
1.3		2
4.2.6 /	27
1.3.1		2
				28
1.3.2		3		…………………………………………………
5.1		F0	28
1.4		3
5.2		F1	30
		4
5.3		F2	31
2.1		4
5.4		F3	34
2.2		5
5.5		F4	36
2.2.1	EV1000	5
5.6		F5	39
2.2.2	EV1000	5
5.7		F6	42
2.2.3	EV1000	6
5.8		F7	44
2.2.4 LED TDP-LED02	6
5.9		F8	52
2.3		7
5.10	F9	54
2.3.1		7
5.11	FA	59
2.3.2 LED TDP-LED03	7
5.12	FF	59
2.3.3	TDP-LED02	7
5.13	FH	60
2.3.4		8
5.14	FL	61

	……………………………………………………..	9	5.15	Fn …………………………..	65
3.1	……………………………………………………	9	5.16	FP …………………………………….	65
3.1.1	EMC ……………………..	9			66
3.1.2		11
				69
3.1.3		12		…………………………………………………….
7.1				69
3.1.4		12		……………………………………………
7.2				69
3.1.5		12		……………………………………………………..
7.3				69
3.1.6		12		………………………………………..
7.4				70
3.2		13		……………………………………………….
7.5				70
3.2.1		13		……………………………………………….

3.2.2	…………………………….	15	1	………………………………………………….	71
3.2.3	…………………………….	16	2		98
3.2.4		21
……………………………………….	3		109
3.2.5		22

	………………………………….	23
4.1	……………………………………………………..	23
4.1.1	…………………………….	23
4.1.2	…………………………….	23
4.1.3	……………………………………	23
4.1.4	……………………………………	23
4.2	………………………………………………	24

EV1000

!		!




	LED
!

1.2


	!







		.

		P(+)/PB (-)




		TA TB TC
		220V
	1.3


2	1.3.1


		EV1000

	PWM


10

36V











			FL.01

EV1000

				3
50Hz	EV1000 U

50Hz	V		M
W




	1-1





















	1000

1-2



	Iout
	100%


1000V	90%
5M
1.3.2	80%
	1000 2000	3000	4000
	1-2
PWM	1.4


1-1

EV1000

			2-1

		EV1000-4Txxxxx 380V 440V 50Hz/60Hz
	EV1000-2Sxxxxx 200V 240V 50Hz/60Hz


	10% -15% +10%
	<3	5


		EV1000-4Txxxxx 0 380V/440V
	EV1000-2Sxxxxx 0 200V/240V


	0Hz 650Hz


		G 150 1 180 3 /1 380V/220V
	P 120 1


		PWM
		1 50

		1Hz 150

		±1

		0.01
	0.2


		0.01Hz
	0.1


		0.0	30.0

V/F	1 V/F 3 2.0 1.7 1.2

	S /

	60

		0.00 60.00Hz 0.1 60.0
		G 0.0 150.0	P 0.0 130.0

		0.10Hz 50.00Hz 0.1 60.0
		PLC

	PI

		V/F
	AVR

EV1000

				5


		LED






		0 50kHz

		2 0/4 20mA 0 10V

	LED	21












		1000

		-10	40	0.5 /
40 1 2% 50


	95 RH


		5.9 / 2 0.6g
		-40	70

		IP20

2.2					2.2.2	EV1000
2.2.1	EV1000			EV1000 2-1a
	2-1b
	2-2
								—
									EV1000	4		T	0 0 2 2	G


G
P	kVA		A	A	kW												P



																					G
EV1000-2S0004G	1.0		5.3	2.5	0.4


		220V		2


							380V		4												(kW)
EV1000-2S0007G	1.5		8.2	4.0	0.75
															0004	0.4

																		0007	0.75
EV1000-2S0015G
3.0		14.0	7.5	1.5			T											0015	1.5

									S										0022	2.2
EV1000-2S0022G	4.0		23.0	10.0	2.2															0037	3.7

																	0055	5.5

EV1000-4T0007G	1.5		3.4	2.3	0.75					2-1a	EV1000


EV1000-4T0015G	3.0		5.0	3.7	1.5


EV1000-4T0022G	4.0		5.8	5.0	2.2


EV1000-4T0037G
		5.9		10.5	8.8	3.7
EV1000-4T0037P


EV1000-4T0055G	8.9		14.6	13.0	5.5

EV1000-4T0055P

EV1000

MODEL: EV1000-4T0022G

POWER: 2.2KW

INPUT: 3PH AC 380V-440V 5.8A 50/60Hz

OUTPUT: 3kVA 5A 0-650Hz 0-440V

S/N:

Emerson Network Power Co., Ltd.

2-1b EV1000

2.2.3EV1000

EV1000 2-2

2-3

		2-3	EV1000
	(kW)	A(mm)	B(mm)	H(mm)	W(mm)	D(mm)	E(mm)	(mm)	(kg)

EV1000-2S0004G	0.4			91	137	145	101	130		4	1.2

EV1000-2S0007G	0.75


EV1000-2S0015G	1.5

EV1000-4T0007G	0.75		120	170	180	130	146		4	1.8

EV1000-4T0015G	1.5


EV1000-4T0022G	2.2								10

EV1000-2S0022G	2.2

EV1000-4T0037G	3.7
			140	230	245	155	160		5	4.0
EV1000-4T0037P	3.7

EV1000-4T0055G	5.5

EV1000-4T0055P	5.5

2.2.4 LED TDP-LED02

EV1000 LED

TDP-LED02 TD10002-3

2-3

EV1000

EV1000 2-4 2-43-2

R	U	M
V

S	W
T	PE

PB	P(+)



2-4
2-4




							s
EV1000-2S0004G	200		/100W	10	100	10

EV1000-2S0007G	150		/200W	10	100	10

EV1000-2S0015G	100		/400W	10	100	10

EV1000-2S0022G	70 /500W	10	100	10

EV1000-4T0007G	300		/400W	10	100	10

EV1000-4T0015G	300		/400W	10	100	10

EV1000-4T0022G	200		/500W	10	100	10

EV1000-4T0037G	200		/500W	10	100	10

EV1000-4T0037P	200		/500W	10	100	10

EV1000-4T0055G	100		/1000W	10	100	10

EV1000-4T0055P	100		/1000W	10	100	10

2.3.2LED TDP-LED03

TDP-LED03

TDP-LED03 2-5

EV1000 TDP-LED02 TDP-LED03

POW RUN ERR

		Attention:
		The	panel only	for
		status disply.

		2-5	TDP-LED03
TDP-LED03



	POW			POW

	RUN			RUN

	ERR			ERR

TDP-LED03 TDP-LED02

2.3.3TDP-LED02

LED TDP-LED02

: TDC-CB00P6A0.6m TDC-CB0015A1.5m TDC-CB0030A3.0m

TDF-KB012-6

1 TDP-LED02 M3*8

EV1000

						9

3.1






-10		40
40
95
5.9 / 2 0.6g


	3-3


	3.1.1 EMC
3-1
3-2
3-3
				100mm




50mm				50mm



		100mm

	3-1		/




		…






					/ EMC
					3-4
	3-2
				EV1000

1 EMI EV1000 IEC 61800 3

2 EMI

3 3

3-4 EMC

20cm

RS485

EV1000

10kV


	>20cm

			>30cm

	PLC






		>50cm



	3-5

	3-1









		1



	2





	3

		2mm
		4





		20cm

EV1000

P(+) PB (-)

380V

50/60Hz

P24

COM

PLC

FWD

REV

GND

0/4 20mA

AO1

0/2

10V .

CN16

AO2

0/4-20mA

0/4 20mA ..

0/2 10V .

P24

CN17

COM

EV1000

VRF

10V

0 10V/0 20mA

VCI

.. I

CCI

. V

GND CN10

RS485+

RS485-

RS485

3-7


1	O	?
2	CCI CN10
3	P(+) PB
4	3.2.3
5	MCCB
6	MCCB 3-2

EV1000

	3-2
	MCCB		mm2
	(A)					(mm2)
EV1000-2S0004G	16	1.5	1.0	1.0	2.5	1
EV1000-2S0007G	20	2.5	1.0	1.0	2.5	1
EV1000-2S0015G	32	4	1.5	2.5	2.5	1
EV1000-2S0022G	50	6	1.5	2.5	2.5	1
EV1000-4T0007G	10	1.0	1.0	1.0	2.5	1
EV1000-4T0015G	16	1.5	1.0	1.5	2.5	1
EV1000-4T0022G	16	1.5	1.5	1.5	2.5	1
EV1000-4T0037G	25	2.5	1.5	2.5	2.5	1
EV1000-4T0037P	25	2.5	1.5	2.5	2.5	1
EV1000-4T0055G	32	4	2.5	4	2.5	1
EV1000-4T0055P	32	4	2.5	4	2.5	1

: 0.5mm2

EV1000

1EV1000-2S0004GEV1000-2S0007G

L	N	U	V	W
	P (+)	PB

	3-4

R S T
P(+) PB
P(+) (-)
U V W
PE

3-3


L N	220V
P(+) PB
P(+) (-)
U V W
PE

17kgf.cm EV1000-2S0015GRST

3 EV1000-4T0037GEV1000-4T0037P

EV1000-4T0055GEV1000-4T0055P

EV1000-2S0022G

14kgf.cm

P(+)

3-5

2 EV1000-4T0007G EV1000-4T0015G

R S T

EV1000-4T0022G EV1000-2S0015G

P(+) PB

( )

U V W

P(+)

―

( )

EV1000

CN5CN6CN10CN16CN17 3-8

3-63-7 1mm2

CN3

CN16 CN17 CN10

CN5 CN6

3-8

3-6

	CN5
	CN6

3-7



CN10	CCI /	0 10V
I 0/4 20mA
	V 0 10V
CN16	AO1 /	0 10V
0/4 20mA AO1
	0/2 10V AO1
CN17	AO2 /
0/4 20mA AO2	0 10V
	0/2 10V AO2

CN10 CN10

EV1000

4 CN6

CN6

P24

COM

VRF

VCI

CCI

GND

P24

PLC

COM

FWD

REV

AO1

AO2

GND

+RS485-

CN6 +RS485RS485 RS485+ RS485-

3-8

CN5 CN6

RS485

RS485-

RS485

0 10V

VCI

100k

VCI

GND

1/2000

0 10V

100k

CCI

CN10

0 20mA

CCI

GND

500

1/2000

AO1

/ 12

CN16

F7.26 GND

0/4 20mA

AO2

/ 12

0/2 10V

CN17

F7.27 GND

X1~X3

5.8 F7

200Hz

1~3

COM

9~30 VDC

X4 X5 X1~X3

100kHz

X4~X5

5.8

50kHz

4~5

50kHz

COM

9~30V

620

FWD

200Hz

REV

200Hz

PLC

: +24V,

P24

+24V

: 10%

200mA

COM

+24V

GND

EV1000

18





Y1	5.8 F7	24 VDC /50 m A
	1




	Y2		24VDC/50mA
	2	5.8 F7	Y2
				50kHz


				+10V
	VRF	10V	10V	10%
				100mA

	GND	10V	10V	COM



				TA-TB TA-TC
	TA/TB/TC		5.8 F7	250VAC/2A COS
=1 250VAC/1A COS =0.4
				30 VDC /1A

VCI

EV1000

VRF(+10V)

VCI

0 +10V

GND PE

3-9 VCI

CCI 0 10V0 20mA

		EV1000	CCI

		VRF(+10V)		I


0 +10V			V
CCI
0/4	20mA	CCI


		GND PE		I
			V

			CN10

3-10 CCI

AO1AO2AO1 AO2 CN16 CN17 AO1AO2

0/4 20mA0/2 10V


	AO1		0/4-20mA
	0/2-10V


EV1000	AO2

	GND		0/4-20mA


			0/2-10V
		AO1 CN16 AO2 CN17

3-11

1 VCI GND CCI GND

RS485

RS232

3-9

EV1000

TDS-PA01PROFIBUS 3-13 PLC

PC PLC


					RS232 DB9
EV1000		RS485/RS232


RS485
5V	5V		PE

			TXD	RXD	2
			RXD	TXD	3
		5V	GND	GND	5
					DTR	4
					DSR	6
	RS485	RS485		RI	9
	RS485	RS485		CD	1
					RTS	7
					CTS	8

3-12 RS485-RS485/RS232-RS232

EV1000

RS485

RS485-

RS485+

EV2000

		TDS -PA01
			PROFIBUS



	RS485-	A

(
	RS485+			B
				1 32



					RS485

		TDS-PA01


	TD3000	TDS-PA01



	3-13 RS485- TDS-PA01 -PROFIBUS
	RS485
PE	GND
GND
RS485	GND

RS485	4 FWD REV
PE	EV1000
	PLC X1 X5 FWD REV
	PLC

EV1000

X1 X5 FWD REV

EV1000

P24

3.3V

COM

+24V DC

—

PLC

24V

FWD

PLC P24

3.3V

P24

+24V

+3.3V

PLC

3-16

+24V

PLC

—

P24

EV1000

X1 X2 . . . X5

FWD

REV

P24

EV1000

3.3V

COM

+24V

— DC

9~30V

PLC

3-14

—

FWD

+24V NPN

3.3V

EV1000

P24

+ 24V

3.3V

COM

—

PLC

FWD

3-17

PLC

3.3V

P24

EV1000

COM

P24

+24V

3.3V

COM

—

— DC

3-15

+24V

9 30V

PLC

FWD

+24V PNP

PLC P24

3.3V

3-18

EV1000

						21

	Y1
24V				1 P24 COM
		+24V	P24	R
			2


+5V
			3
			Y1
					PE
			COM		4

EV1000
				20cm

3-19	1
3.2.4
Y1

9 30V
	+24V	P24
+5V	DC 9 30V

	Y1		R
		+ —


		COM

EV1000

3-20	2		>30cm	>50cm

	Y2
24V

					>20cm
	EV1000	+24V

		P24
					/
+5V	+24V

			R
		Y2

		COM			/


				3-23

	3-21	Y2 1
			3-2
	Y2

9 30V
	EV1000	+24V		5

		P24			/
+5V
+24V


		Y2	R
			+
			—
			9~30V
		COM


	3-22	Y2 2
		EV1000

板

3-24

3-25

3-26 1

3-27 2

3-28 3

EV1000

4.2.1LED

LED

	PARAMETER		UNIT

		.	HZ
		V
			A

/

	PRG


		FUNC
		DATA

		STOP
	RUN
RESET

	4-1	LED

LED 7 4-1

					4-1	LED

		PRG

	FUNC/DATA		/


				▼
							LED

		RUN


	STOP/RESET		/



/

EV1000

LED


LED	Hz
LED	A

LED	V


		RUN

LED


Hz+A	(r/min)
A+V	(m/s)
Hz+V	(%)

Hz,A,V

EV1000 17 F0 F9FAFFFHFLFnFPFU + F5.08 5 8

2 LED

LED 1

DECHEX0 F▼

1 50Hz 40HzF0.12 50.00 40.00

1 PRG LED F0

2 FUNC/DATA F0.00 F0.12

3 FUNC/DATA F0.12 50.00

5 ▼ 54

6 FUNC/DATA F0.12 F0.13

7 PRG

EV1000

			PRG	FUNC
			DATA
	50.00	F0	F0.00	F0.12


					FUNC
			▼ 50.00		DATA
	40.00		50.00


FUNC		PRG
DATA

			PRG
F0.13	F0.12	-F0-	50.00

PRG

-F0- 40.00

F8.01LED

5-11

F8.01 BIT2 BIT2=10 0100 4 4

1111 F F

F8.01 00F4

			B IT 2	H z
			B IT 3 A

			B IT 0	rp m
			B IT 1	rp m
			B IT 2	m /s
			B IT 3	m /s

			B IT 0
			B IT 1 %
			B IT 2
			B IT 3

			B IT 0
			B IT 1
			B IT 2

			B IT 3

EV1000

FP.01=1 2 FP.01 0

▼

4.2.6/

F9.07 0 FUNC/DATA PRG

	PRG		FUNC
		DATA

50.00	F0	-F9-	F9.00

FUNC

DATA

0020 0020 F9.07

	FUNC	PRG
	DATA

0120	F9.08	-F9-	50.00

FUNC

DATA + PRG

50.00

4 2 LED

FUNC/DATA ▼ F9.07

F9.07 0 LED LED

EV1000

1 F0.02

5-1 LED

F0.01

0F0.02

1F0.02

F0.01

1 F0.02F0.02

F0.02

50.00Hz

F0.000 1 2

F0.03 012 0

EV1000

0LED

RUNSTOP

FWDREV

EV1000

						29
F0.04		0 1	0
	LED	Vmax


	0	1		Vb

F0.05		Max{50.00, F0.12 }
650.00Hz 50.00Hz		fz	fb
F0.06		1.00 650.00Hz 50.00Hz	Vb	Vmax
F0.07		1 480V		fz	fb

		5-3

5-2 fmax

5-2 fb

5-2

Vmax

5-2

fH fL F0.12F0.13

fmax fb Vmax

F0.08


F0.09		0 30.0 0.0

0 0 5-3


2 fz F0.21
3
V/F
F0.10	1	0.1 3600s min	6.0s
F0.11	1	0.1 3600s min	6.0s

频率F0.05 5-4 t1F0.05 5-4 t2

EV1000 1 2 4

F3.17 F3.22 5.4

1 4 F9.09

	F0.12
	50.00Hz

	F0.13		0 0.00Hz

EV1000

5-2 fH fL

上下限2.5Hz

F0.14	V/F	0	3 0
F0.15	V/F F3	F0.17	F0.06	0.00Hz
F0.16	V/F V3	F0.18	100.0	0.0
F0.17	V/F F2	F0.19	F0.15	0.00Hz
F0.18	V/F V2	F0.20	F0.16	0.0
F0.19	V/F F1	0	F0.17	0.00Hz
F0.20	V/F V1	0	F0.18	0.0

EV1000 V/F F0.143

F0.14=1 2.0 5-5

F0.14=2 1.7 5-5

F0.14=3 1.2 5-5

Vmax

0 3 2 1

Fb Hz

Vmax F0.07

Fb F0.06

5-5

F0.14 0 F0.15 F0.20V/F 5-6 V1F1V2F2V3F3 V/F

V/F 5-5 0

%
100%
	V3
	V2
	V1
	F1	F2	F3	Fb
					Hz
	V1~V3 VF 1~3
	F1~F3 VF 1~3
	Fb F0.06
	5-6	V/F
F0.21	:0 50	10.0

本运行频率F0.06 5-3 fzF0.14 V/F

5.2F1

F1.00		:000 111 000
F1.01		:0.00 9.99 1.00
F1.02		:0.01 50.00s 0.50s
F1.03		:0.1 50.0kHz 10.0kHz
F1.04	1	:0.0	100.0	0.0
F1.05	1	:0.0 650.0Hz 0.00Hz


F1.06	1	:0.0	100.0	100.0
F1.07	1	:0.0 650.0Hz 50.00Hz


F1.08	2	:0.0	100.0	0.0
F1.09	2	:0.0 650.0Hz 0.00Hz


F1.10	2	:0.0	100.0	100.0
F1.11	2	:0.0 650.0Hz 50.00Hz

VCICCI PULSE

				A


F0.00	F1.02		F1.01	P	1 2
		F1.00

5-7

EV1000

1 2 1 F1.04 F1.07 2 F1.08 F1.11 5-8



fmax			fmax
fmin			fmin
Pmin	Pmax	P	Pmin	Pmax	P
Amin	Amax	A	Amin	Amax	A
(1)			(2)
P pulse		A VCI CCI
Pmin Amin		Pmax Amax
fmin	fmax

5-8

A 100 10V 20mAP 100 F1.03

F1.02

F1.00 VCICCIPULSE 5-9

VCI

0 1

1 2

CCI

0 1

1 2

PULSE

0 1

1 2

5-9

1kHz 20kHz

EV1000

1 1 1 2 0

F2.01		0.20 60.00Hz 0.50Hz
F2.02	0.0 10.0s 0.0s

5-11 fS 5-11t1

F2.03				0.0
F2.04				0.0s

F2.03F2.04F2.00=1 5-12

0~150%P 0~130%

定电流的百分比

0.0s

5-12 1

F2.05=0

5-13

F2.05=1S

S 5-14

F2.05=2

FL.07

fmax

t1 t2

5-13

EV1000

						33


fmax		3			2
3
	2	2


	1	1

	t1	t 2			F2.09 F2.12


	5-14	S		F2.09
				0.00 60.00Hz	0.00Hz
f


				F2.10	0.00 10.00s 0.00s


				F2.11		0.0
				F2.12		0.0s

			t		F2.09


	5-15




F0.10 F0.11 F3.17 F3.22			G

F2.06	S	10 50	20.0	0~150% P	0~130%
F2.07	S	10 80	60.0

	F2.06 F2.07 S

F2.05=1 F2.06+F2.07	90
	0.0s
	S 5-14

0
	S 5-14

	S 5-14

0

	S







F2.08	0 1 2 0
	0





	1						5-15	+

					F2.13	0 1 0

EV1000

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Источник

Endress

ESE Series

ESE Power GeneratorORIGINAL OPERATING MANUALESE 1006 HG-GT ES Duplex Art-No. 113260ESE 1006 DHG-GT ES Duplex Art-No. 113261ESE 1306 DHG-GT ES Duplex Art-No. 113258ESE 1506 DHG-GT ES Duplex Art-No. 113259SEA 13 Art-No. 151747 …

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VLT AutomationDrive FC 300

Contents1. How to Read these Operating Instructions3Approvals 4Symbols 4Abbreviations 52. Safety Instructions and General Warning7High Voltage 7Avoid Unintended Start 9Safe Stop of FC 300 9Safe Stop Installation (FC 302 and FC 301 — A1 enclosure only) 11IT Mains 113. How to Install13Mechanical Installation 18Electrical …

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Owner’s ManualQuiet Mobile PowerCongratulations! You’ve purchased the most advanced, feature-rich Inverter/Charger designed as an alternative energy source for residential, commercial or recreational vehicle applications. Tripp Lite Inverter/Chargers are the quiet alternative to gas generators—with no fumes, …

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Quick Links

Summary of Contents for Emerson EV1000-2S0004G

Как пользоваться?

Для Вашего удобства

Печатная версия

Резюме

ESE Series

SPH3000

RSD-S-PLC

VLT AutomationDrive FC 300

PowerVerter 200812163

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