Warning – Fuji Bikes FRENIC 5000G11S/P11S User Manual

5-36

This function smoothly starts the motor which is coasting
after a momentary power failure or after the motor has
been subject to external force, without stopping motor.
At startup, this function detects the motor speed and
outputs the corresponding frequency, thereby enabling a
shock-free motor startup. Although the normal startup
method is used, when the coasting speed of the motor is
120 Hz or more as an inverter frequency, when the value
set to "F03 Maximum frequency," exceeds the value set to
"F15 Frequency limiter (upper limit)." and when the
coasting speed is less than 5 Hz as an inverter frequency.

H 0 9

S T A R T

M O D E

Set value

0,1,2

Set value STM

Restart after a
momentary power
failure or
Line-to-inverter
switching

Other
operation

0

Inactive
(normal starting)

1

Active
(smoothly starting)

Inactive

2

OFF /
not selected

Active

any value

ON

Active

STM: Start characteristics selection signal(E01 to E09: 26)
NOTE:
-1: Automatically restart when overcurrent or overvoltage is

detected during smoothly starts.

-2: The coasting speed is used 100 Hz or less as an

inverter frequency.

-3: When H09:2 or STM:ON, it needs the time more than

normal start even the motor is STOP because the motor
speed is detected on ALL situation. And it may be
rotated the motor when the load is too small.

-4: Auto tuning(P04/A13: 2) should be done to use this

function.

-5: When the used motor slippage is too differ from FUJI

motor, the "Slip compensation control (P09, A18)"
should be set. The characteristics may not be satisfied.

‹

When the operation above is to be problem, this function

is not used (inactive).

‹

This function may not be satisfied the characteristics

because of the load condition, motor constant, operating
frequency, coasting speed, wire length, momentary
power failure time or external factor.

P24

STM

FWD

Time

0.1 s or
longer

0.2 s or
longer

ON

Time

Output
frequency
(motor speed)

Speed
search

In this section, the output
voltage is gradually increased
in steps to minimize shock.

Acceleration

ON

Note: The dotted-dashed line indicates motor speed.

‹

When the output frequency is fixed (constant-speed

operation) at light loads and except for”0.0” is set to F09,

"Torque boost 1," this function automatically reduces the

output voltage, while minimizing the product (power) of

voltage and current.

‹

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

function.

‹

The energy-saving operation does not be operated when

set below.

- Under Torque control

- Selected the Automatic torque boost

- Selected the Torque vector control

- Under PG vector control

Set value 0: Inactive

1: Active
Note:
-Use this function for square law reduction torque loads

(e.g., fans, pumps). When used for a constant-torque

load or rapidly changing load, this function causes a delay

in control response.

-The energy-saving operation automatically stops

during acceleration and deceleration and when the

torque limiting function is activated.


‹

This function selects the inverter stopping method when

a stop command is entered.

H 1 1

D E C

M O D E

Set value 0: Deceleration-to-stop based on data set to

"H07 Non-linear acceleration and
deceleration"

1: Coasting-to-stop

Note:
This function is effective only when a stop command is

entered and, therefore, is ineffective when the motor is

stopped by lowering the set frequency.

‹

An overcurrent trip generally occurs when current flows

above the inverter protective level following a rapid

change in motor load. The instantaneous overcurrent

limiting function controls inverter output and prohibits the

flow of a current exceeding the protective level even

when the load changes.

‹

As the operation level of the instantaneous overcurrent

limiting function cannot be adjusted, the torque limiting

function must be used.

WARNING

As motor generation torque may be
reduced when instantaneous
overcurrent limiting is applied, set this
function to be inactive for equipment
such as elevators, which are
adversely affected by reduced motor
generation torque, in which case an
overcurrent trip occurs when the
current flow exceeds the inverter
protective level. A mechanical brake
should be used to ensure safety.
as accident may result.

H 1 2

I N S T

C L

Set value 0: Inactive

1: Active

H 1 0

E N E R G Y S A V

H12

Instantaneous overcurrent limiting

H10

Energy-saving operation

H11

DEC mode

H09

Start mode