- 149 -
Bit Parameter Name Default Bit Parameter Name Default
Bit0 Running speed 1 Bit8 Car load 1
Bit1 Set speed 1 Bit9 System state 1
Bit2 Bus voltage 1 Bit10 Pre-toque current 1
Bit3 Output voltage 1 Bit11 Input terminal 1 state 1
Bit4 Output current 1 Bit12 Input terminal 2 state 1
Bit5 Output frequency 1 Bit13 Input terminal 3 state 1
Bit6 Current oor 1 Bit14 Output terminal 1 state 1
Bit7 Current position 1 Bit15 Output terminal 2 state 1
Function Code Parameter Name Setting Range Default Unit Property
FA-02 Display in stop state 1–65535 65535 -
☆
It is used to set the parameters displayed on the keypad when the elevator is in the stop
state.
A total of 16 parameters can be displayed at stop. The use is the same as that of FA-01.
The 16 binary bits correspond to the stop parameters listed in the following table.
Table 7-14 Stop parameters corresponding to 16 bits of FA-02
Bit Parameter Name Default Bit Parameter Name Default
Bit0 Set speed 1 Bit8 Input terminal 2 state 1
Bit1 Bus voltage 1 Bit9 Input terminal 3 state 1
Bit2 Current oor 1 Bit10 Output terminal 1 state 1
Bit3 Current position 1 Bit11 Output terminal 2 state 1
Bit4 Car load 1 Bit12 Reserved 0
Bit5
Slow-down distance at rated
speed
1 Bit13 Reserved 0
Bit6 System state 1 Bit14 Reserved 0
Bit7 Input terminal state 1 1 Bit15 Reserved 0
The running and stop parameters of the NICE1000
new
system are the important references
for engineers to perform commissioning on site. The parameters are described as follows:
1. Running speed: indicates the actual running speed of the elevator.
Its maximum value is F0-03 (Maximum running speed), in unit of m/s.
2. Set speed: indicates the set speed of the NICE1000
new
system during elevator running. It
is the running speed calculated by the system theoretically at which the elevator should
run, in unit of m/s.
3. Bus voltage: indicates the DC bus voltage of the NICE1000
new
system, in unit of m/s.
4. Current oor: indicates the information of the physical oor where the elevator is located.
It is the same as the value of F4-01.