Hitachi X200 Series User Manual

Torque and Constant Volts/Hertz Operation

In the past, AC variable speed drives used an

open loop (scalar) technique to control speed.

The constant-volts-hertz operation
maintains a constant ratio between the

applied voltage and the applied frequency.

With these conditions, AC induction motors
inherently delivered constant torque across

the operating speed range. For some

applications, this scalar technique was
adequate.

Today, with the advent of sophisticated microprocessors and digital signal processors
(DSPs), it is possible to control the speed and torque of AC induction motors with

unprecedented accuracy. The X200 utilizes these devices to perform complex

mathematical calculations required to achieve superior performance. You can choose
various torque curves to fit the needs of your application. Constant torque applies the

same torque level across the frequency (speed) range.

Variable torque

, also called

reduced torque

, lowers the torque delivered at mid-level frequencies. A torque boost

setting will add additionally torque in the lower half of the frequency range for the

constant and variable torque curves. With the

free-setting torque

curve feature, you can

specify a series of data points that will define a custom torque curve to fit your
application.

Inverter Input and Three-phase Power

The Hitachi X200 Series of inverters includes two sub-groups: the 200V class and the

400V class inverters. The drive describes in this manual may be used in either the

United States or Europe, although the exact voltage level for commercial power may be
slightly different from country to country. Accordingly, a 200V class inverter requires

(nominal) 200 to 240VAC, and 400V class inverter requires from 380 to 480VAC.

For 200V class inverters having a suffix of –SFE accepts single phase 200V class input
voltage, and three-phase for –LFU. All 400V class inverters require three-phase power

supply.

TIP: If your application only has single phase power available, refer to X200 inverter of

3HP or less (European version with a suffix of -SFE); they can accept single phase input
power.

The common technology for single phase power is line (L) and Neutral (N). Three-phase

power connections are usually labeled Line 1 [R/L1], Line 2 [S/L2] and Line 3 [T/L3]. In
any case, the power source should include an earth ground connection. That ground

connection will need to connect to the inverter chassis and to the motor frame (see “Wire

the Inverter Output to Motor” on page 2-21).

Output
voltage

V

0

Output frequency

100%

f

Constant torque

1−13

Getting st

arted