YASKAWA D1000 Series Instruction Manual page 47

<6> Sequence the operation so that the converter starts operation before the drive when power is applied. Sequence the stopping
operation to turn off the drive first, then the motor, and finally the converter. Operating the drive without operating the converter or
turning off the power supply unit during operation may trigger a converter fault.
<7> Do not connect a power supply to the drive AC power supply terminals (R/L1, S/L2, and T/L3).
<8> The connections are shown for sequence connections with no-voltage contacts or NPN transistors for the sequence input signals
(S1 to S8). Use jumper S3 to select between Sink mode and Source mode. The default setting is Sink mode.
<9> Multi-function analog outputs work with devices such as analog frequency meters, ammeters, voltmeters, and wattmeters. They are
not intended for use as a feedback-type signal.
Figure 3.3
Input-side AC
GFCI
or reactor 2
<1>
MCCB
U X
Three-
Phase
V
Y
Power
W Z
Supply
Reactor for
<3>
harmonic filter
Capacitor for
harmonic filter
Multi-function
digtial inputs
(default setting)
Figure 3.3 Standard Connection Diagram (example: model CIMR-D 4A0630)
<1> NOTICE: When installing a noise filter on the converter power supply, use a reactor-type noise filter (without a capacitor), such as
a zero phase reactor, and install it after the MCCB on the power supply side. Do not install a filter with a built-in capacitor as the
harmonic components may cause the capacitor to overheat or may damage the capacitor.
<2> Do not use a line longer than 10 m (32.8 ft.) to connect the input-side AC reactor and the converter.
<3> Use the specified AC reactor and harmonic filter module. Non-specified devices may cause erroneous operation.
<4> Do not use a DC bus line that is longer than 5 m (16.4 ft.) to connect the converter and drive.
YASKAWA ELECTRIC TOEP C710656 07A YASKAWA Power Regenerative Converter - D1000 Instruction Manual
<2><3>
Input-side
AC reactor 1
U X
R/L1
V Y
S/L2
W Z
T/L3
U V
W
Input-side AC
reactor 1
U X
R1/L11
V
Y
X
Y Z
S1/L21
W Z
U V W
T1/L31
E
r1/ 11
1/ 21
t1/ 31
Control Circuit
S1
RUN-SB
S2
STOP
S3
External fault
S4
Fault reset
S5
(Reserved)
S6
(Reserved)
S7
(Reserved)
S8
External
Baseblock
Sink
SN
SC
Sink / Source mode
selection wire link
SP
<8>
(default: Sink)
+24 V
E(G)
Shield ground terminal
Power supply
+10.5 Vdc, max. 20 mA
+V
Analog Input 1
A1
(Reserved)
(Reserved)
A2 Analog Input 2
A3 Analog Input 3
(Reserved)
AC
-V Power supply, -10.5 Vdc,
max. 20 mA
Termination resistor
(120 Ω, 1/2 W)
R+
R-
MEMOBUS/
S+
Modbus comm.
RS-422/RS-485
S-
max. 115.2 kbps
IG
shielded line
main circuit terminal
3.1 Standard Connection Diagram
+
Converter
D1000
-
Option card
connectors
CN5-C
CN5-B
CN5-A
Multi-function relay
M1
<6>
output (During Run)
250 Vac, max. 1 A M2
30 Vdc, max 1 A
(min. 5 Vdc, 10 mA)
Multi-function relay output
M3
(During MC on)
M4
250 Vac, max. 1 A
30 Vdc, max 1 A
(min. 5 Vdc, 10 mA)
Multi-function relay output
M5
(Converter Ready)
M6
250 Vac, max. 1 A
30 Vdc, max 1 A
(min. 5 Vdc, 10 mA)
MA
Fault relay output
MB
250 Vac, max. 1 A
30 Vdc, max 1 A
MC
(min. 5 Vdc, 10 mA)
DIP Switch S1
V I
Multi-function analog
output 1
FM
(Output frequency)
-10 to +10 Vdc (2mA) or
4 to 20 mA
<9>
DIP AM
Multi-function analog
Switch S2
AC
output 2
(Output current)
0 V
-10 to +10 Vdc (2mA) or
4 to 20 mA
<9>
E (G)
twisted-pair shielded line
control circuit terminal
+ 1
<4><5>
<7>
-
<4><5>
Ground
Drive
YAI
+
−
FM
+
−
AM
Motor
IM
3
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