Why can the inverter save energy – MITSUBISHI ELECTRIC INVERTER FR-F700 User Manual

Features

Standard

Specifications

Outline

Dimension

Drawings

Operation

Panel

Protective

Functions

Options

Instructions

Motor

Compatibility

W

arranty

Inquiry

Peripheral Devices

Why energy

savings?

Te

rminal Connection

Diagram

Te

rminal Specification

Explanation

Parameter

List

Explanations

of

Parameters

6

The load torque of a motor-driven machine generally changes depending on speed. On the other hand, motor output is
proportional to the product of load torque and speed as indicated in the following formula, and therefore, necessary motor
output varies with speed.

When this motor is operated by the inverter, the inverter output provides the frequency f appropriate to the motor speed,
and the then output voltage V is determined by a "V/f = constant" pattern in the case of a constant-torque load.
For example, when the motor is operated at middle speed, f, i.e. output voltage V, decreases, and therefore, the inverter
output power V

× I reduces if the output current I is constant.

Proportionately, the inverter input current decreases and the power consumption reduces. Namely, when the motor output
reduces, the input power of the inverter also decreases as a matter of course.
The fundamental principle of energy saving by the inverter is to eliminate wasted power consumption by minimizing loss
caused by the other devices and minimizing the motor output as compared to the other system (for example, commercial
power supply operation or secondary resistance control of wound-rotor motor). A maximum energy saving effect is
produced on a fan, pump or like by the variable-torque load characteristic that reduces load torque as speed decreases.

Motor speed control enables substantial energy-saving operation as compared to commercial power supply operation.

Motor output P = T

×

N/(9550

×

η) [kW]

T : Motor shaft-equivalent load torque [N·m]
N : Motor speed [r/min]
η : Machine efficiency

For example, when a 15kW motor is operated at 60% air volume and
the power charge is 17 yen/kW·h, the power charge as much as below
can be saved in a year.

(1)Damper control

15kW

Ч0.9Ч17 yen×24h×365days 2.01 million yen

(2)Inverter control

15kW

Ч0.3Ч17 yen×24h×365days 0.67 million yen

Damper control (discharge side)

Inverter control

Air volume (%)

Power Consumption (%)

Amount of
energy saved

0

40

60

80

100

20

40

60

80

100

Damper control

Inverter
energy-saving
control

15kW
Save
1,340,000
a year

15kW

2,010,000

15kW

670,000

(1) - (2) = energy-saving effect

Approx. 1.34 million yen

Why Can the Inverter Save Energy?