Note1:

If REMOTE operation(F02: 1) is selected, operation signal is given from terminal [FWD] or [REV].

Note2:

Use function "A13 Motor 2 (auto tuning)," to tune motor 2. In this case, set values described in 1 and 2 above are for the function (A01 - ) of motor 2.

 

 

When the auto tuning value is set to 2,

WARNING

 

the motor rotates at a maximum of half

 

the base frequency. Beware of motor

 

 

rotation.

 

 

as injury may result.

P05

Motor 1 (On-line Tuning)

‹Long-time operation affects motor temperature and motor speed. Online tuning minimizes speed changes when motor temperature changes.

‹Auto tuning(P04/A13: 2) should be done to use this function.

P

0

5

M

1

 

T

U

N

2

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Set value

Operation

 

0Inactive

1Active

P06

Motor 1 (no-load current)

‹This function sets the no-load current (exciting current) of motor 1.

P

0

6

M

1

I

O

 

 

 

 

 

Setting range: 0.00 to

2,000A

P07

Motor 1 (%R1 setting)

P08

Motor 1 (%X setting)

P09

Slip compensation control

‹Changes in load torque affect motor slippage, thus causing variations in motor speed. The slip compensation control adds a frequency (proportional to motor torque) to the inverter output frequency to minimize variations in motor speed due to torque changes.

P

0

9

S

L

I

P

 

C

O

M

P

1

 

‹Auto tuning(P04/A13: 2) should be done to use this function.

Set value: 0.00 to 15.00Hz

‹Calculate the amount of slip compensation using the following formula:

Slip compenssation amount

 

=Base frequency×

Slippage[r/min]

[Hz]

 

 

Synchronous speed[r/min]

Slippage = Synchronous speed - Rated speed

‹Write this data when using a motor other than the FUJI standard 3-phase motor and when the motor constant and the impedance between the inverter and motor are known.

P

0

7

M

1

%

R

1

 

 

 

 

P

0

8

M

1

%

X

 

 

 

 

 

‹Calculate %R1 using the following formula:

%R1 = R1+(Cable)R ×100[%] V/ 3・I

R1 : Primary coil resistance value of the motor [Ω]

Cable R : Output-side cable resistance value [Ω]

V : Rated voltage [V] : Motor rated current [A]

‹Calculate %X

using the following formula:

%X =

X1+X2・XM/

(X2+XM

) + Cable

X

× 100[%]

 

V/ ( 3・I )

 

 

 

 

 

 

 

X1 : Primary leakage reactance of the motor [Ω]

X2 : Secondary leakage reactance (converted to a primary value)of the motor [Ω]

XM : Exciting reactance of the motor [Ω]

Cable X : Output-side cable reactance [Ω]

V : Rated voltage [V] I : Motor rated current[A]

Note:

For reactance, use a value in the data written in "F04 Base frequency 1."

‹When connecting a reactor or filter to the output circuit, add its value. Use value 0 for cable values that can be ignored.

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Fuji Bikes 5000G11S/P11S As injury may result, P05 Motor 1 On-line Tuning, Set value Operation, Inactive Active