Hitachi SJ700-2 Series User Manual

5 - 4

5.5 Method of Checking the Inverter and Converter Circuits

You can check the quality of the inverter and converter circuits by using a tester.

(Preparation)
1) Remove the external power supply cables from terminals R, T, and T, the motor cables from terminals

U, V, and W, and the regenerative braking resistor cables from terminals P and RB.

2) Prepare a tester. (Use the 1

Ω-measuring range.)

(Checking method)
Measure the current conduction at each of the inverter's main circuit terminals R, S, T, U, V, W, RB, P, and
N while switching the tester polarity alternately.

Note 1: Before checking the circuits, measure the voltage across terminals P and N with the tester in DC

voltage range mode to confirm that the smoothing capacitor has fully discharged electricity.

Note 2: When the measured terminal is nonconductive, the tester reads a nearly infinite resistance. The

tester may not read the infinite resistance if the measured terminal flows a current momentarily
under the influence of the smoothing capacitor.

When the measured terminal is conductive, the tester reading is several ohms to several tens of
ohms. The measured values may vary slightly, depending on the types of circuit devices and
tester. However, if the values measured at the terminals are almost the same, the inverter and
converter circuits have adequate quality.

Note 3: Only inverter models with capacity of 22 kW or less have the BRD circuit.

Tester polarity

(red)

(black)

Measurement result

R

PD

Nonconductive

D1

PD

R

Conductive

S

PD

Nonconductive

D2

PD

S

Conductive

T

PD

Nonconductive

D3

PD

T

Conductive

R

N

Conductive

D4

N

R

Nonconductive

S

N

Conductive

D5

N

S

Nonconductive

T

N

Conductive

C

o

n

v

e

rt

e

r

c

ir

c

u

it

D6

N

T

Nonconductive

U

P

Nonconductive

TR1

P

U

Conductive

V

P

Nonconductive

TR2

P

V

Conductive

W

P

Nonconductive

TR3

P

W

Conductive

U

N

Conductive

TR4

N

U

Nonconductive

V

N

Conductive

TR5

N

V

Nonconductive

W

N

Conductive

In

v

e

rt

e

r

c

ir

c

u

it

TR6

N

W

Nonconductive

RB

P

Nonconductive

P

RB

Conductive

RB

N

Nonconductive

B

R

D

c

ir

c

u

it

TR7

N

RV

Nonconductive

PD

D1

D4

D2

D5

D3

D6

R

S

T

TR4

TR5

TR6

TR1

TR2

TR3

C+

P

N

TR7

RB

U

V

W

Converter circuit

BRD circuit

Inverter circuit