The food factory cutting machine uses frequency converter 1.5KW 380V

Jan 7th, 2012

Brand: Sunfar- is all sides

Name: The food factory cutting machine uses frequency converter 1.5KW 380V

Type: C300A-4T0015

About products:

Series C300 are Shenzhen’s one which electric technological Co., Ltd. introduces is not vector type small power frequency converter of electric current of speed sensor all sides, the appearance is too exquisite, embeded with uniqueness to have speed sensor electric current vector to control algorithms, suitable for driving answering high-standardly in multi-type

The products are detailed:

A style which electric technological Co., Ltd. puts out that it is all sides that series C300 are Shenzhen There is no vector type small power frequency converter of electric current of speed sensor ,The appearance is too exquisite, embeded with uniqueness to have speed sensor electric current vector to control algorithms, suitable for driving and employing the occasion many kinds of high-standardly. Especially starting and offering the steady, powerful output torsion in the operating area at a low speed, the working technique that the abundant function disposes and simple and convenient lets you realize demand of all kinds of transmission easily.

About function:

1. Power range: 0.4~3.7KW.

2. There is no sensor electric current vector to control (V/F control method is available) .

3.Superior the intersection of starter torque and characteristic, can realize 150% more than high starter torque at the 1Hz; Control the precision remarkably, the frequency is analyzed and spent up to 0.01Hz.

4.It is high and supporting and compensating the function at a low speed, set up appropriate compensation and can guarantee the electrical machinery leaves starting and running in different load smoothly and steadily.

5.Have slippery difference compensation functions, to assaulting load, can guarantee the electrical machinery rotational speed is invariable.

6.Built-in the intersection of energy consumption and unit of applying the brake, energy consumption apply the brake initial voltage and movement of applying the brake rate flexible and adjustable, the function that good direct current applies the brake, can bear frequent direct current and apply the brake.

7.Unique self-adaptation, adjusting algorithms, the automatic limit flows and presses with the limit, minimize the possibility that the system trouble trips.

8.Offer the parameter to since exactly make the function, improve and control the precision.

9.4 No. multi-functional the intersection of end and son can presume freely and programmable the intersection of relay and contact export.

10.Wide voltage should design to abominable the intersection of electric wire netting and environment, can offer and reply the solution to the special electric wire netting.

11.The intersection of communication and interface, RS485 of standard configuration, available the intersection of MODBUS and agreement, self-defining agreement all sides; Possess and link and control the function synchronously, realize easily other workers such as frequency converter, PLC, worker’s accusing of machine accuse of the interconnection of the apparatus.

Application:

Lathe trade ( Carving tool, grinding machine) ; Textile industry ( Carding machine) ; Food trade ( Cutting machine) ; Trades such as the conveyer belt,etc.. Fail
Enter

Specified voltage, frequency

Three phases ( # series 4T) 380V; 50/60Hz

Single-phase ‘ # series 2S) 220V; 50/60Hz

The voltage allows change range

Three phases ( # series 4T) 320V ~ 460V

Single-phase ‘ # series 2S) 170V ~ 270V

Fail
Appear

Voltage

# series 4T: 0 ~ 380V

# series 2S: 0~220V

Frequency

0~600Hz

Overload capacity

Long-term 110%; 150% 1 minutes; 180% 2 seconds

Control method

V/F control, there is no sensor electric current vector to control

Control the characteristic

Frequency

Settlement

Resolution ratio

Imitate the end to input

The largest output frequency 0.1%

The figure is presumed

0.01Hz

Frequency

Precision

Simulation is input

Less than 0.2% of the largest output frequency

The figure is input

Presume less than 0.01% of the output frequency

V/F

Control

V/F curve
(Voltage frequency
Characteristic)

Basis frequency presume many curve, V/F of node, presume, also can choose permanent torque, not low to reduce 1 torque, not low to make a reduction of torque 2 3 fixed curve while being arbitrary while being arbitrary in 5-600Hz

The torque is promoted

Presume manually: 0.0- 20.0% that amount exported; Promote automatically: Confirm the torque of promotion automatically according to exporting the electric current

The automatic limit flows

Press with the limit

No matter in the course of accelerating, moderating or running steadily, all detect and examine electrical machinery stator electric current and voltage automatically, inhibit it in the range of allowing, minimize the possibility that the system trouble trips according to the unique algorithm

Control the characteristic

There is no sense vector to accuse of Make

Voltage frequency

Characteristic

Change, export, press than frequently automatically according to the intersection of electrical machinery and parameter and unique algorithm

Torque characteristic

1Hz hour, 150% of the specified torque; The lasting accuracy of the rotational speed: 0.1%

Electrical machinery parameter
Determine by oneself

Do not receive any restriction, finish the automatic detection of the parameter under the static behavior of the electrical machinery, in order to win the optimum control result

Electric current and voltage
Inhibit

The whole electric current closes the ring and controls, totally prevents the electric current from striking, possess complete overvoltage and inhibit the function

It is depressing to owe and make while running

Especially to the voltage of the low electric wire netting and user whose voltage frequently fluctuated of electric wire netting, press in the range in a below to allow one, system can according to unique algorithm and can assign tactics while being incomplete also, maintain the longest possible running time

Allusion quatation

Type

Work

Yes

The multistage speed, with putting running frequently

8 Section can be programmed multistagely and controlled rapidly, 6 kinds of operational modes are available. Put and run frequently: It is adjustable to preset the frequency, frequency of centre, the state memory and resuming after cutting out

PID control

RS485 communication

Built-in PID controller ‘ Can be presetted the frequency) . Standard configuration RS485 communication function, many kinds of communication associations

It is available to discuss, possess and link and control the function synchronously

The frequency is presumed

Simulation is input

The direct current presses 0- 10V, direct electric current 0- 20mA (have, lower limit is available)

The figure is input

Operate panel presume RS485 interface presume son, end of UP/DW, control, can input with simulation too

Presume many kinds of associations

Output signals

OC end son

Output

OC of No. one exports and exports (TA, TB, TC) with a route of troubles relay ,Reaches 16 kinds of meanings to choose

Simulation is exported

No. 0- 10V voltage signal one, upper and lower limits can be presumed respectively

Allusion quatation

Type

Work

Yes

Automatic steady voltage runs

Can choose dynamic steady voltage, static steady voltage, the intersection of steady voltage and 3 way according to need, in order to obtain steady operation result the most

Add, the time of moderating presumes

0.1S- 6000min can be presumed continuously, S-shaped, the mode is available sharply type

Make

Move

Regeneration applies the brake

More than 75%

Direct current applies the brake

Part availably while starting, stopping, the frequency 0- 50.0Hz of movements, movements time 0- 20.0S or act continuously

With low noise to run

The signal carrier frequency 1.5KHz- 12.0KHz is adjustable continuously, reduce the noise of the electrical machinery to the greatest extent

Examine the speed and start the function again

Can realize the smoothness of electrical machinery is started and stopped starting the function in wink while operating

Counter

One internal counter, facilitate system integration

Operation function

The upper, lower frequency presumes, the frequency jumps and runs, transship the conduct to limit instead, transfer to the difference frequency and compensate, RS485 communication, the frequency is increased progressively, decreased progressively and controlled, the trouble resumes running etc. by oneself

Apparent

Show

Operate the panel to reveal

State of running

Output frequency, export the electric current, output voltage, the electrical machinery rotational speed, presume the frequency, module temperature, PID presumes, feedbacking amount, simulation is input and exported etc.

Warning content

Failure logging six times recently, parameter records of 6 operation such as the output frequency, presuming the frequency, outputting electric current, output voltage, pressing, module temperature of direct current when the last trouble trips,etc.

Protection / warning function

Cross electric current, overvoltage, owe, press, the intersection of electron and hot relay, overheated, short out, export, lack looks, the electrical machinery parameter is unusual, the main contactor sucks and shuts the trouble, internal memory trouble,etc.

Ring

Border

Environment temperature

-From 10oC to +50oC (not freeze)

Humidity around

90% are following ‘ Do not form the frost)

Surrounding environment

In the room (there is no sunshine to shine, not have corroding, flammable gas directly, oil-free fog, dust,etc.)

Above sea level

Lower than 1000m

Knot

Construct

Protect the grade

IP20

Cooling way

It is air-cooled to force

Install the way

Wall type

Parameter
Type

Function
Code

Name

Presume range and explanation

Minimum

Unit

Dispatched from the factory

Settlement

Change

Limit

Basically run in the parameter group

F0. 0

The control method is chosen

0: V/F way 1: There is no sense vector to control

1

0

F0. 1

The frequency input channel / way is chosen

0: The frequency figure is presumed

1: UP/DW end son increases progressively, decreases progressively and controls

2: RS485 interface

3: Potentiometer of the panel

4: External a voltage signal VC ‘ 0V~10V)

5: External a electric current signal CC ‘ 0~20mA)

6: Make up presuming

7: Carry the son to choose on the outside

1

3

F0. 2

The frequency figure is presumed

0.00 ~Frequency of upper limit

0.01

0

F0. 3

The frequency figure presumes that assists controlling

LED the unit:

0: Presume the frequency loses the electricity to store

1: Presume the frequency loses the electricity and does not store

LED ten:

0: Presume the frequency keeps while shutting down

1: Presume the frequency is returned to [F0.2 ] while shutting down

2: Presume the zero clearing of the frequency while shutting down

LED one hundred: Keep

LED kilobit: Keep

1

0000

F0. 4

Run and order the passway to choose

LED the unit:

0: The keyboard is controlled 1: External end son

2: Serial communication port

LED ten: STOP key function

0: Only the board control method opposite is effective

1: All control methods are effective

LED one hundred: Keep

LED kilobit: Keep

1

0000

F0.5

Operate the order and carry the sub mode of combination

0: Mode 1 of Line two

1: Line two mode 2

2: Mode of the strategic hinterland of China

1

0

F0.6

Change direction and control

LED the unit:

0: With presuming the direction is identical

1: With presuming the direction is opposite

LED ten:

0: Overturning prevents invalid

1: Overturning prevents effectively

LED one hundred: Keep

LED kilobit: Keep

1

0000

F0.7

Lower frequency

0.0 Hz~ [F0.8]

0.01

0.0

F0.8

Frequency of upper limit

[F0.7] ~ 600.00Hz

0.01

50.00

F0.9

Keep

F0. 10

Accelerate 1 of time

0.1 ~6000 second /divide

0.1

F0. 11

1 of time of moderating

0.1 ~6000 second /divide

0.1

F0. 12

Add, moderate the characteristic parameter

LED the unit:

0: The straight line is added and moderated; 1: S curve added and moderated

LED ten:

0: Adding the time of moderating to add and moderate according to presuming

1: Add and moderate automatically

LED one hundred: Add the chronomere of moderating

0: Second (Sec) ; 1: Divide (Min)

LED kilobit: Keep

1

0000

F0. 13

S adds and moderates initial section

10 .0~ 50.0 ( %)

0.1

20.0

F0. 14

S adds and moderates to rise / drop section

10.0 ~80.0 ( %)

0.01

60.0

F0. 15

Keep

F0. 16

Frequency of the signal carrier

1.5~ 12.0 KHz

0.1

8

F0. 17

Carry Potter

LED the unit: Keep the function

0: The soft PWM modulation is closed

1: Soft PWM modulation movements

LED ten:

0: Support the related signal carrier to adjust and close

1: Support the related signal carrier and adjust movements

LED one hundred:

0: The hot related signal carrier is adjusted and closed

1: The hot related signal carrier adjusts movements

LED kilobit:

0: The frequency signal carrier is adjusted and closed

1: The related signal carrier of frequency adjusts movements

1

1110

F0. 18

The parameter is written into and protects

1: Only permit to revise F0.2 and a parameter

2: Only permit to revise a parameter

Other number values: Allow to revise all parameters

1

0

Elementary application parameter group

F1. 0

V/F the intersection of curve and type choose only in V/F control method, namely [F0.0 ] =Valid at 0 o’clock)

0: Permanent torque contours

1: Lower the intersection of torque and the intersection of characteristic and curve 1 ‘ Power 1.5 times)

2: Lower in the characteristic curve 2 of the torque ‘ Power 2 times)

3: Self-defining V/F contours

1

0

F1. 1

The torque is promoted

0.0~20.0( % )

0.1

7

F1. 2

The torque promotes the way

0: Manually 1: Automatic

1

0

F1. 3

Basically operation frequency

5.00- Frequency of upper limit

0.01

50.00

F1. 4

The largest output voltage

200- 500V

100- 250V

1

380

220

F1. 5

V/F frequency 3

[F1.7] ~ [F1.3]

0.01

0.0

F1. 6

V/F voltage 3

[F1.8] ~ 100.0(%)

0.1

0.0

F1. 7

V/F frequency 2

[F1.9] ~ [F1.5]

0.01

0.0

F1. 8

V/F voltage 2

[F1.10] ~ [F1.6]

0.1

0.0

F1. 9

V/F frequency 1

0.0 ~[F1.7]

0.01

0.0

F1. 10

V/F voltage 1

[F1.1] ~ [F1.8]

0.1

0.0

F1. 11

The direct current while starting applies the brake in the electric current

0.0 -100.0( % )

0.1

50.0

F1. 12

Time of applying the brake of direct current while starting

0.0 -20.0 seconds

0.1

0

F1.13

Keep

F1.14

Transfer to the difference frequency and compensate

0- 150( % )

1

0

F1.15

Support the electrical machinery specified voltage

200- 500V

100~250V

1

380V

220V

F1.16

Support the electrical machinery specified frequency

5.00- 600.00Hz

0.01

50.00

F1.17

Support the specified electric current of the electrical machinery

0.01- 300.0A

0.01

F1.18

Support the electrical machinery specified rotational speed

300- 6000RPM

1

F1.19

Support the empty load of the electrical machinery (excitation) Electric current

[F0.17]/4~[F1.17] 3/4

0.01

F1.20

The parameter is determined by oneself

0: Do not act 1: The static behavior is examined by oneself

2: Operate examining 3: Synthesize and examine by oneself

1

0

F1.21

Start pre- excitation to choose

LED the unit: Start pre- excitation

0: Invalid 1: Effective

LED ten: A pre- magnetism is prepared

0: Invalid 1: Effective

One hundred location of LED, kilobit: Keep

1

0001

F1.22

Start the time of pre- excitation

0.10- 2.00Sec

0.01

0.30

F1.23

It is corrected that the electrical machinery parameter is adaptive

LED the unit: It is corrected that the stator resistance is adaptive

0: Invalid 1: Effective

LED ten: It is corrected that the electric current of excitation is adaptive

0: Invalid 1: Effective

LED one hundred: It is corrected that the rotor resistance is adaptive

0: Invalid 1: Effective

LED kilobit: Keep

1

0010

F1.24

Stator resistance

0.000- 20.000

0.0011

F1.25

1.25

Rotor resistance

0.000- 20.000

0.0011

F1.26

Rotor inductance

0.00- 600.00( mH)

0.01

F1.27

Excitation inductance

0.00- 600.00( mH)

0.01

F1.28

Leak the sense ‘ Coefficient)

0.00- 100.00( mH)

0.01

F1.29

Transfer to difference compensation and gain

0.50- 1.50

0.01

1.00

F1.30

Keep

Simulation inputs and outputs the parameter group

F2.0

VC inputs the lower voltage

0.0 ~[F2.1]

0.1

0.0V

F2.1

VC inputs the voltage of upper limit

[F2.0] ~ 10.0V

0.1

5.0 V

F2.2

CC inputs the lower electric current

0.0mA~ [F2.3]

0.1

4.0

F2.3

CC inputs the electric current of upper limit

[F2.2] ~ 20.0mA

0.1

20.0

F2.4

Minimum to presume the frequency

0.0~[F2.5]

0.01

0.00

F2.5

Presume the frequency the most largely

[F2.4]~600.0Hz

0.01

50.00

F2.6

The input channel characteristic is chosen

LED the unit: (VC passway)

0: Straight characteristic 1: Go against the characteristic

LED ten: Keep

LED one hundred: (CC passway)

0: Straight characteristic 1: Go against the characteristic

LED kilobit: Keep

1

0000

F2.7

The external frequency presumes that strains the wave

Time constant

0.01- 1.00Sec

0.01

0.10

F2.8

Input channel association of the frequency

See, make up, prove ‘ 0- 19)

1

0

F2.9

Simulation is exported and chosen (AVO)

LED the unit: AVO exports and chooses

0: Output frequency 1: Export the electric current

2: Output voltage 3: The electrical machinery rotational speed

4: PID presumes 5: PID feedbacks

LED ten: Keep

LED one hundred: Keep

LED kilobit: Keep

1

0000

F2.10

AVO outputs lower limit

0.0- [F2.11]

0.1

0.0 V

F2.11

AVO outputs upper limit

[F2.10]- 12.0

0.1

10.0V

F2.12

Keep

The figure inputs and outputs the parameter group

F3.0

A function of input terminus son is controlled (0~25)

0: The control end is left unused; 1: Multistage to control 1 rapidly;

2: Multistage to control 2 rapidly; 3: Multistage to control 3 rapidly;

4: Input is put frequently; 5: Put the state to reset frequently;

6: Rotate clockwise and click moving to control; 7: Overturn and click moving to control;

8: Add the time of moderating and choose 1;

9: Add the time of moderating and choose 2;

10: The frequency presumes the passway chooses 1;

11: The frequency presumes the passway chooses 2;

12: The frequency presumes the passway chooses 3;

13: The frequency is increased progressively and controlled (UP) ;

14: The frequency decreases progressively and controls (DW) ;

15: Zero clearing of UP-DW frequency;

16: Shut down and control freely;

17: The external apparatus breakdown signal is input;

18: The the strategic hinterland of China type operates and controls;

19: Direct current applies the brake to control;

20: Zero clearing of the internal counter;

21: Internal counter clock;

22: PLC operates input;

23: PID operates input;

24: Keep;

25: The state is reset after PLC shuts down;

1

1

F3.1

2 functions of input terminus son are controlled (0~25)

1

2

F3.2

3 functions of input terminus son are controlled (0~25)

1

3

F3.3

4 functions of input terminus son are controlled (0~25)

1

6

F3.4

Export the port OC to choose

0: In the frequency converter runs 1: The frequency arrives

2: Horizontal testing signal of the frequency 3: The overload calls the police

4: The external trouble shuts down 5: The frequency reaches upper limit

6: The frequency reaches lower limit 7: Zero is while operating rapidly

8: Owe and press and shut down 9: PLC runs and finishes at stage

10: PLC cycle finishes

11: Keep 12: Presume counter value arrives

13: Appointed counter value arrives

14: Keep 15: Keep

16: Trouble of the frequency converter

17: Put frequently upper and lower limits are limited

18: Keep

1

0

F3.5

The relay is exported and chosen

1

16

F3.6

The frequency reaches the detection range

0.0~20. 00Hz

0. 01

5.00

F3.7

FDT (frequency level) Settlement

0.0 is the frequency of upper limit

0.01

10.00

F3.8

FDT exports the time of time delay

0.0~200.0 seconds

0.1

2.0

F3.9

Warning level of the overload

50~200( % )

1

110

F3.10

Warning time delay time of overload

0.0~20.0 seconds

0.1

2.0

F3.11

Keep

Run in the parameter group auxiliarily

F4.0

Start the way

0: It is started that regular; 1: Examine the speed and start again

1

0

F4.1

Start the frequency

0.0- 10.00Hz

0.01

0.5

F4.2

Start the duration of frequency

0.0- 20.0 seconds

0.1

0.0

F4.3

Way of shutting down

0: Reduce the speed 1: Shut down freely

1

0

F4.4

Initial frequency that direct current applies the brake while shutting down

0.0- 50.00Hz

0.01

3.00

F4.5

Waiting time of applying the brake of direct current while shutting down

0.0- 5.0 seconds

0.1

0.1

F4.6

Direct current applies the brake for time of movement while shutting down

0.0- 20.0 seconds

0.1

0

F4.7

Direct current applies the brake in the electric current while shutting down

0.0- 100( % )

0.1

50.0

F4.8

A threshold of running frequently

0.0- 100.0Hz

0.01

0.5

F4.9

A difference of going back frequently

0.0- 50.00Hz

0.01

0.5

F4.10

Some moves frequency

0.0- Frequency of upper limit

0.01

10.00

F4.11

Accelerate the moment level

110- 200( % )

1

160

F4.12

Make the square level of motive force

10- 150( % )

1

80

F4.13

Electrical machinery overload protection coefficient

50- 110( % )

1

110

F4.14

Automatic steady voltage (AVR)

0: Invalid; 1: The trends are effective; 2: The static behavior is effective

1

2

F4.15

Keep

F4.16

It is transferred to very much district time that positive and negative

0.0- 5.0 seconds

0.1

0.0

F4.17

Accelerate 2 of time

0.1- 6000 second /divide

0.1

F4.18

The time of moderating is 2

0.1- 6000 second /divide

0.1

F4.19

Accelerate 3 of time

0.1- 6000 second /divide

0.1

F4.20

The time of moderating is 3

0.1- 6000 second /divide

0.1

F4.21

Accelerate 4 of time / click and move and accelerate time

0.1- 6000 second /divide

0.1

F4.22

Moderate 4 time / order and move the time of moderating

0.1- 6000 second /divide

0.1

F4.23

UP/DW end son revises the speed

0.01- 100.0Hz/Sec

0.01

10.00

F4.24

Initial voltage that energy consumption applies the brake

600~750V

1

700V

F4.25

Movement rate that energy consumption applies the brake

10~100( % )

1

60%

F4.26

Shut down and start again and set up

LED the unit: Movements are chosen

0: Do not act 1: Movements

LED ten: And then start the way

0: The regular way is started again

1: Examine speed way and start again

LED one hundred: Keep

LED kilobit: Keep

1

0010

F4.27

Lose electrical power and start waiting time again

0.0- 10.0 seconds

0.1

0.5

F4.28

Keep

Multistage speed control parameter group

F5. 0

Multistage speed operational mode

LED the unit: PLC movement chosen

0: Do not act 1: Movements

2: Condition movements

LED ten: PLC operates the mode selection

0: Circulate 1 only: Circulate the mode of shutting down only

2: Circulate 3 continuously: Circulate the mode of shutting down continuously

4: Keep worth finally

5: Worth the mode of shutting down finally

LED one hundred: PLC breaks some and resumes the way to choose

0: Resume running since the first stage

1: Begin with operation frequency while cutting off and run

2: Begin with frequency of stage while cutting off and run

LED kilobit: PLC state stored

0: Lose the electricity and does not store 1: Lose the electricity to store

1

0000

F5. 1

Frequency 1 of the multistage speed

0.0 ~Frequency of upper limit

0.01

35.00

F5. 2

Multistage speed frequency 2

0.0 ~Frequency of upper limit

0.01

15.00

F5. 3

Multistage speed frequency 3

0.0 ~Frequency of upper limit

0.01

3.00

F5. 4

Multistage speed frequency 4

0.0 ~Frequency of upper limit

0.01

20.00

F5. 5

Multistage speed frequency 5

0.0 ~Frequency of upper limit

0.01

25.00

F5. 6

Multistage speed frequency 6

0.0 ~Frequency of upper limit

0.01

30.00

F5. 7

Multistage speed frequency 7

0.0 ~Frequency of upper limit

0.01

35.00

F5.8

Multistage speed frequency 8

0.0 ~Frequency of upper limit

0.01

40.00

F5. 9

Stage 1

0.0- 6000 seconds

0.1

10.0

F5. 10

Stage 2

0.0- 6000 seconds

0.1

10.0

F5. 11

Stage 3

0.0- 6000 seconds

0.1

10.0

F5. 12

Stage 4

0.0- 6000 seconds

0.1

10.0

F5. 13

Stage 5

0.0- 6000 seconds

0.1

10.0

F5. 14

Stage 6

0.0- 6000 seconds

0.1

10.0

F5.15

Stage 7

0.0- 6000 seconds

0.1

10.0

F5.16

Stage 8

0.0- 6000 seconds

0.1

10.0

F5.17

PLC is multistage to run in the direction rapidly

LED the unit: (a direction of operating of stage)

0: Rotate clockwise 1: Reverse

LED ten: (2 directions of operating of stage)

0: Rotate clockwise 1: Reverse

LED one hundred: (3 directions of operating of stage)

0: Rotate clockwise 1: Reverse

LED kilobit: (4 directions of operating of stage)

0: Rotate clockwise 1: Reverse

1

0000

F5.18

PLC is multistage to run in the direction rapidly

LED the unit: (5 directions of operating of stage)

0: Rotate clockwise 1: Reverse

LED ten: (6 directions of operating of stage)

0: Rotate clockwise 1: Reverse

LED one hundred: (7 directions of operating of stage)

0: Rotate clockwise 1: Reverse

LED kilobit: (8 directions of operating of stage)

0: Rotate clockwise 1: Reverse

1

0000

F5.19

Keep

Advanced to run in the parameter group

F6.0

Keep

F6.1

The trouble resumes the number of times by oneself

0,1,2

1

0

F6.2

The trouble is resuming spacing interval

0.2- 20 seconds

0.1

2.0

F6.3

The internal counter end value is presumed

1- 60000

1

1

F6.4

The appointing value of internal counter is presumed

1- 60000

1

1

F6.5

The frequency 1 jumps

0.0- Frequency of upper limit

0.01

0.0

F6.6

A range of frequency jumps

0.0- 5.00Hz

0.01

0.0

F6.7

The frequency 2 jumps

0.0- Frequency of upper limit

0.01

0.0

F6.8

2 range of frequency jumps

0.0- 5.00Hz

0.01

0.0

F6.9

The linear velocity coefficient is presumed

0.01- 100.0

0.01

1.00

F6.10

Closing the simulation of ring reveals the coefficient

0.01- 100.00

0.01

1.00

F6.11

The rotational speed reveals the coefficient

0.01- 10.00

0.01

1.00

F6.12

Control the parameter 1 to choose

0- 11

1

0

F6.13

Control the parameter 2 to choose

0- 11

1

1

F6.14

The parameter is inquired about / revised the authority

0 ~ 9999

1

1700

F6.15

Initialisation of parameter

0: Do not act

1: Initialized movements

2: Remove the failure logging

1

0

F6.16

Copy the function in parameter

0: Copy and forbid; 1: It allows to copy

1

0

F6.17

Producer’s password

0- 9999

1

1000

F6.18

Authority password

0- 9999

1

0

F6.19

Consult the password

0 ~ 9999

1

Put and run in the parameter group frequently

F7.0

Put and run frequently the way is set up

LED the unit: The function is set up

0: Put frequently the function is closed

1: It is effective to put the function frequently

2: Wave terms effective function frequently ‘ Carry the son to put into on the outside)

LED ten: Shut down in starting way

0: Start according to the state of memory before shutting down

1: Resume starting

LED one hundred:

0: Fixed amplitude 1: Turn into amplitude

LED kilobit: The state stores and resumes

0: Do not store, starts to wait and rollbacks after losing the electricity

1: Resume this state while losing the electricity, storing the state, starting

1

1000

F7.1

Put and prefabricate the frequency frequently

0.0- Frequency of upper limit

0.01

10.00

F7.2

Prefabricate the frequency

0.0- 6000.0Sec

0.1

0.0

F7.3

Put the amplitude frequently

0.0- 50.0( % )

0.1

10.0

F7.4

Jump the frequency suddenly

0.0- 80.0( % )

0.1

10.0

F7.5

Time of rising of triangular wave

0.1- 1000.0Sec

0.1

10.0

F7.6

The triangular wave drops time

0.1- 1000.0Sec

0.1

10.0

F7.7

Put frequently the centre frequency is set up

0.0- Frequency of upper limit

0.01

10.0

F7.8

Keep

PID

Control parameter group of the parameter

F8.0

Built-in PID control

LED the unit: PID function chosen

0: PID control is closed

1: PID control is effective

2: The PID control condition is effective

LED ten: PID controller structure chosen

0: Proportion 1: Total mark 2: Total mark of the proportion

LED one hundred: PID regulating characteristics

0: Acting on 1: Reaction

LED kilobit:

0: Single polar PID control

1: Pair of polar PID control

1

0020

F8.1

PID presumes / feedbacks the passway to choose

LED the unit: PID presumes the passway is chosen

0: The figure is presumed; 1: Serial interface;

2: Potentiometer of the panel

3: The outside pigeonholes the signal VC ‘ 0- 10V)

4: External electric current signal CC

LED ten: Keep

LED one hundred: PID feedbacks the passway to choose

0: Voltage input VC ( 0 ~ 10V)

1: Input CC of the electric current

2: VC + CC; 3: VC – CC;

4: Min{VC, CC} ; 5: Max{VC, CC}

LED kilobit: Keep

1

0000

F8.2

Built-in PID closes the ring figure to presume

0.00- 10.00V

0.01

0.0

F8.3

Quantification that it is given that minimum

0.0- [F8.4]

0.01

0.0

F8.4

Quantification that it is given that it is the most largely

[F8.3]- 10.00

0.01

10.00

F8.5

Minimum feedbacking amount

0.0- 10.00

0.01

0.0

F8.6

Maximum feedbacking amount

0.0- 10.00

0.1

10.00

F8.7

The proportion is gained

0.0- 5.00

0.01

1.00

F8.8

Time constant of the total mark

1.0- 100.0 seconds

0.1

10.0

F8.9

Offset and allow to limit

0- 20.0( % )

0.1

0.0

F8.10

Close and surround and preset the frequency

0.0- Frequency of upper limit

0.01

0.0

F8.11

Close the ring and is presetted the frequency keeping time

0.0- 6000.0Sec

0.1

0.0

F8.12

Sleep threshold

0.0- 10.00

0.01

10.00

F8.13

Wake threshold up

0.0- 10.00

0.01

0.0

F8.14

Keep

Function parameter group of the communication

F9.0

Communication is set up

LED the unit: The Potter rate is chosen

0: Keep 1: 1200bps

2: 2400bps 3: 4800bps

4: 9600bps 5: 19200bps

LED ten: Data form chosen

0: There is no check-up 1: Even check-up 2: Strange check-up

LED one hundred: The communication protocol chooses the location

0: The self-defining agreement all sides 1: MODBUS agreement

LED kilobit: Keep

1

0014

F9.1

This machine address

0- 30

1

0

F9.2

This machine replies the time of prolonging

0- 1000ms

1

5ms

F9.3

Communication assists the function to dispose

LED the unit: Principal and subordinate is set up

0: Originally change device frequently into it from the station; 1: Originally change device frequently into the main website

LED ten: Movement choice after communication fails

0: Shutting down; 1: Attitude of maintaining the statusquo

LED one hundred: Keep

LED kilobit: Keep

1

0010

F9.4

Communication overtime

0.0- 100.0s

0.1

10.0

F9.5

Link and presume the proportion

0.01- 10.00

0.01

1.00

F9.6

Link the proportion and correct the passway

0: Have not corrected 1: Potentiometer of the panel

2: External a voltage signal VC ‘ 0 ~ 10V)

3: External a electric current signal CC ‘ 0 ~ 20mA)

1

0

F9.7

Keep

The special function disposes the parameter group

FC.0

Owe and press and protect competence

360- 460V

1

380

FC.1

Excessive pressure limits the movement level

660- 760V

1

700

FC.2

Electric current amplitude limiting level

150- 200( % )

1

180

FC.3

Keep

FC.4

Run and protect the function to set up

LED the unit: Owe and press and compensate the intensity 0- 9

LED ten: Cross and inhibit and make intensity 0- 9

LED one hundred: Cross and flow and inhibit the intensity 0- 9

LED kilobit: Make the square of motive force and adjust the intensity in self-adaptation 0- 9

1

3333

FC.5

Function movements are chosen

LED the unit: Cool the fan to control

0: Cool the fan and operate after the frequency converter runs

1: Cool the electricity on the frequency converter of the fan, turn round immediately

LED ten: Cool the fan to adjust and control rapidly

0: Close 1: Movements

LED one hundred: The voltage passes and modulates

0: Close 1: Movements

LED kilobit: Keep

1

0010

FC.6

Keep

LED the unit: The parameter revises and protects the function 0- 9

LED ten: Son’s effective level of the input terminus

0: Low the level ‘ Son puts through the end effectively)

1: High level ( Carry sub disconnection effectively)

LED one hundred: Keep

LED kilobit: Keep

1

0000

FC.7

Keep

FC.8

Agency’s password

0 ~ 9999

1

100

FC.9

Estimation coefficient of the rotational speed

0.10- 5.00

0.01

3.00

FC.10

The rotational speed closes the ring to gain

0.50- 1.20

0.01

1.00

FC.11

The rotational speed closes the time constant of the total mark of the ring

0.10- 10.00

0.01

1.00

FC.12

The dead district compensates and corrects

0- 25

1

5

FC.13

Procedure edition

2000- 2099

1

Recommend using the specification of the electric apparatus:

Type of the frequency converter

Right to mix the electrical machinery (KW)

Wire gage ( Main return circuit)

( mm2)

Air circuit breaker

( A)

Electromagnetic contactor

( A)

C300-2S0002

0.25

2.5

10

6

C300-2S0004

0.4

2.5

10

6

C300-2S0007

0.75

4

16

12

C300-2S0015

1.5

4

20

18

C300-2S0022

2.2

6

32

18

C300-4T0004

0.4

2.5

10

6

C300-4T0007

0.75

2.5

10

6

C300-4T0015

1.5

2.5

16

12

C300-4T0022

2.2

4

16

12

C300-4T0037

3.7

4

20

18

Basically mixing the line of frequency converter:

Install the size with frequency converter

Applicable model: C300-2S0002- C300-2S0007/C300-4T0004- C300-4T0007

Install the size Ⅱ with frequency converter

Applicable model: C300-2S0015- C300-2S0022/C300-4T0015- C300-4T0037

Install the size:

Type of the frequency converter

(three-phase 400V)

Type of the frequency converter

(single-phase 220V)

W1

(mm)

W

(mm)

H1

(mm)

H

(mm)

D

(mm)

Screw
Specification

C300-2S0002

88

98

165

178

140

M4

C300-4T0004

C300-2S0004

C300-4T0007

C300-2S0007

C300-4T0015

C300-2S0015

95

105

190

200

160

M4

C300-4T0022

C300-2S0022

C300-4T0037

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