Hitachi X200 Series User Manual

Powerup Test Observations and Summary

Step 10: Reading this section will help you make some useful observations when first

running the motor.

Error Codes – If the inverter displays an error code (format is “E xx”), see “

Monitoring

Trip Events, History, & Conditions” on page 6-5

to interpret and clear the error.

Acceleration and Deceleration – The X200 inverter has programmable acceleration and

deceleration value. The test procedure left these at the default value, 10 seconds. You
can observe this by setting the potentiometer at about half speed before running the

motor. Then press RUN, and the motor will take 5 seconds to reach a steady speed.

Press the STOP key to see a 5 second deceleration to a STOP.

State of Inverter at Stop – If you adjust the motor’s speed to zero, the motor will slow to

a near stop, and the inverter turns the outputs OFF. The high-performance X200 can

rotate at a very slow speed with high torque output, but not zero (must use servo
systems with position feedback for that feature). This characteristic means you must

use a mechanical brake for some applications.

Interpreting the Display – First, refer to the output frequency display readout. The
maximum frequency setting (parameter A044) defaults to 50 Hz or 60 Hz (Europe and

United States, respectively) for your application.

Example: Suppose a 4-pole motor is rated for 60 Hz operation, so the inverter is
configured to output 60 Hz at full scale. Use the following formula to calculate the rpm.

Speed in RPM

RPM

poles

of

Frequency

poles

of

Pairs

Frequency

1800

4

120

60

#

120

60

=

Ч

=

Ч

=

Ч

=

The theoretical speed for the motor is 1800 RPM (speed of torque vector rotation).

However, the motor cannot generate torque unless its shaft turns at a slightly different

speed. This difference is called

slip

. So it’s common to see a rated speed of

approximately 1750 RPM on a 60 Hz, 4-pole motor. Using a tachometer to measure

shaft speed, you can see the difference between the inverter output frequency and the

actual motor speed. The slip increases slightly as the motor’s load increases. This is
why the inverter output value is called “frequency”, since it is not exactly equal to

motor speed.

Run/Stop Versus Monitor/Program Modes – The
Run LED on the inverter is ON in Run Mode, and

OFF in Stop Mode. The Program LED is ON

when the inverter is in Program Mode, and OFF
for Monitor Mode. All four mode combinations

are possible. The diagram to the right depicts the

modes and the mode transitions via keypad.

NOTE: Some factory automation devices such as PLCs have alternative Run/Program

modes; the device is in either one mode or the other. In the Hitachi inverter, however,
Run Mode alternates with Stop Mode, and Program Mode alternates with Monitor Mode.

This arrangement lets you program some value while the inverter is operating –

providing flexibility for maintenance personnel.

Run

Stop

RUN

STOP
RESET

Monitor

Program

FUNC

10

2−35

Inverter Mountin

g

and i

n

st

all
a

tio
n