V5 series inverter
65
5
:
38400BPS
Ten
Ten
Ten
Ten’’’’ssss place
place
place
place of
of
of
of LED
LED
LED
LED
: Set digital format, the values are show below:
0
:
1
-
7
-
2 format
,
no parity check
;
1 stop bit
,
7 data bits
,
2 stop bits
,
no parity check.
1
:
1
-
7
-
1 format
,
odd
;
1 stop bit
,
7 data bits
,
1 stop bits
,
odd
2
:
1
-
7
-
1 format
,
even
;
1 stop bit
,
7 data bits
,
1 stop bit
,
even
3
:
1
-
8
-
2 format
,
no parity check
;
1 stop bit
,
8 data bits
,
2 stop bits
,
no parity check.
4
:
1
-
8
-
1 format
,
odd
;
1 stop bit
,
8 data bits
,
1 stop bit, odd
5
:
1
-
8
-
1 format
,
even
;
1 stop bit
,
8 data bits
,
1 stop bit
,
even
6
:
1
-
8
-
1 format
,
no parity check
;
1 stop bit
,
8 data bits
,
1 stop bit
,
no parity check.
Hundred
Hundred
Hundred
Hundred’’’’ssss place
place
place
place of
of
of
of LED
LED
LED
LED
:
undefined
Note
Note
Note
Note
:
when choose Modbus-RTU communication mode
,
you should select digital format 3~6.
This parameter is used for identify the inverter’s address in serial communication.
0 is the broadcast address. If take inverter as a slave, it will receive the command with 0 as broadcast address and will not
answer the PC.
248 is the address with inverter as a host. If take inverter as host and set P3.10 as 248
,
it can send broadcast command to
other inverters to realize multi-machine .
When serial port failed and the duration over the reference value, the inverter will judge it as communication fault.
When set the value as 0, the inverter will not detect the serial communication port and this function disabled.
It refers to time from inverter’s serial port receiving and executing the command of host PC to returning response to it.
This parameter is used for setting the proportion coefficient according to frequency setting command which is receiving by
inverter through RS485, the actual running frequency equivalent to this parameter multiply the frequency value receiving
through RS485.
This parameter can also set running frequency proportion of several inverters in multimachine linkage mode.
Seven kinds of Acc/Dec time can be defined, and the inverter’s Acc/Dec time 1~7 can be selected by different combination of
control terminals. Please refer to the introductions of P4.00~P4.05 for the definitions of terminals used to select Acc/Dec time,
also, you can refer to Acc/Dec time defined in P0.17 and P0.18.
P3.10
P3.10
P3.10
P3.10
Local
Local
Local
Local address
address
address
address
Range
Range
Range
Range
:
0
0
0
0
~
248
248
248
248
1
1
1
1
P3.11
P3.11
P3.11
P3.11
Time
Time
Time
Time threshod
threshod
threshod
threshod for
for
for
for judging
judging
judging
judging
communication
communication
communication
communication status
status
status
status
Range
Range
Range
Range
:
0.0
0.0
0.0
0.0
~
1000.0S
1000.0S
1000.0S
1000.0S
0.0S
0.0S
0.0S
0.0S
P3.12
P3.12
P3.12
P3.12
Host
Host
Host
Host P
P
P
PC
C
C
C response
response
response
response del
del
del
delay
ay
ay
ay
Range
Range
Range
Range
:
0
0
0
0
~
1000ms
1000ms
1000ms
1000ms
5ms
5ms
5ms
5ms
P3.13
P3.13
P3.13
P3.13
Reference
Reference
Reference
Reference proportion
proportion
proportion
proportion of
of
of
of
communication
communication
communication
communication frequency
frequency
frequency
frequency
Range
Range
Range
Range
:
0.01
0.01
0.01
0.01
~
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
P3.14
P3.14
P3.14
P3.14
Acc
Acc
Acc
Acc time
time
time
time 2
2
2
2
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.15
P3.15
P3.15
P3.15
Dec
Dec
Dec
Dec time
time
time
time 2
2
2
2
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.16
P3.16
P3.16
P3.16
Acc
Acc
Acc
Acc time
time
time
time 3
3
3
3
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.17
P3.17
P3.17
P3.17
Dec
Dec
Dec
Dec time
time
time
time 3
3
3
3
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.18
P3.18
P3.18
P3.18
Acc
Acc
Acc
Acc time
time
time
time 4
4
4
4
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.19
P3.19
P3.19
P3.19
Dec
Dec
Dec
Dec time
time
time
time 4
4
4
4
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.20
P3.20
P3.20
P3.20
Acc
Acc
Acc
Acc time
time
time
time 5
5
5
5
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.21
P3.21
P3.21
P3.21
Dec
Dec
Dec
Dec time
time
time
time 5
5
5
5
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.22
P3.22
P3.22
P3.22
Acc
Acc
Acc
Acc time
time
time
time 6
6
6
6
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.23
P3.23
P3.23
P3.23
Dec
Dec
Dec
Dec time
time
time
time 6
6
6
6
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.24
P3.24
P3.24
P3.24
Acc
Acc
Acc
Acc time
time
time
time 7
7
7
7
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0
P3.25
P3.25
P3.25
P3.25
Dec
Dec
Dec
Dec time
time
time
time 7
7
7
7
Range
Range
Range
Range
:
0.1
0.1
0.1
0.1
~
6000.0
6000.0
6000.0
6000.0
1
1
1
10.0
0.0
0.0
0.0