Eternal Drive
VECTOR-P100
Direct Current Variable Frequency Drive
User Manual
Version 1.0
September, 2022
LONGWEI AUTOMATIC
VECTOR-P100 USER MANAL
LONGWEI AUTOMATIC
Updated records
DCR#
Rev.
Originator
Date
1
1.00
Dales Wong
10/10/2022
DC VARIABLE FREQUENCY DRIVE
Remark
Initial release
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LONGWEI AUTOMATIC
Content
1．Electrical specifications
2．Installation and overall dimensions
3．Interface Definition
3.2 Left interface
3.2 Right interface
3.3 Dip switch diagram and speed setting table
4．Terminal control (I/O interface)
4.1 Input electrical schematic diagram
4.2 Output electrical schematic diagram (optional function)
5．Electrical connection mode
5.1 Wiring speed control PNP mode
5.2 Wiring speed control NPN mode
5.3 Multiple drivers are connected to PLC in PNP mode
5.3.1 Multiple drive RUN port connect to PLC in PNP mode
5.3.2 Multiple drive VERTOR-P100 port connect to PLC in PNP mode
5.4 Multiple drive connect to PLC in NPN mode
5.4.1 Multiple drive RUN port connect to PLC in NPN mode
5.4.2 Multiple drive VERTOR-P100 port connect to PLC in NPN mode
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1. Electrical specifications
Item
Unit
Drive model number
Specifications
VECTOR-P100
With Hall sine wave control
Drive brushless mode
Rated voltage
V
DC24±5%
Peak current
A
10
Rated power
W
100
Working form
%
100
Control mode
Installation sizes
S1: continuous working form
I/O signal
mm
Power interface
Terminal control interface
Motor and Hall interface
Working temperature
Remark
℃
Working humidity
DC VARIABLE FREQUENCY DRIVE
92mm×36mm
2 core screw access socket
Nylon (PA66), UL94V-2/0
2 core screw access terminal
phosphor bronze (C5191), cable: RVV 2X1.0mm²
6 core screw access socket
Nylon (PA66), UL94V-2/0
6 core screw access terminal
phosphor bronze (C5191), cable: ZR-RVSP 0.5mm²
9 core square socket
Nylon (PA66), UL94V-2/0
9 core square terminal
phosphor bronze (C5191), cable: RVV 2X1.0mm²
-10～40
below 85%
no water drops, no rain
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2. Installation and overall dimensions
(figure 1
drive dimensions unit: mm)
3. Interface Definition
power input
motor interface
functional dip
alert lamp
control interface
(figure 2 drive interface definition)
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3.1 Left interface description
(figure 3
the left interface)
Power input
No.
Item
Functional Definition
Remark
1
VIN+
DC24V positive input
Input voltage range: DC24V ±5%
2
VIN-
DC24V negative input
Current: Rated current is divided into 3A and 4.2A
Motor interface
No.
Item
Functional Definition
Remark
1
U
motor U phase
connect to reduction motor U phase (ref: yellow wire)
2
V
motor V phase
connect to reduction motor V phase (ref: green wire)
3
W
motor W phase
connect to reduction motor W phase (ref: blue wire)
4
ENV-
power ground
Hall power negative pole (ref: black wire)
5
ENV+
+5V Hall power
Hall power positive pole (ref: red wire)
6
TEMP
temperature sensor NTC signal
temperature sensor NTC signal (ref: white wire)
7
HA
Hall signal A
connect to reduction motor Hall signal A (ref: yellow wire)
8
HB
Hall signal B
connect to reduction motor Hall signal B (ref: green wire)
9
HC
Hall signal C
connect to reduction motor Hall signal C (ref: blue wire)
3.2 Right interface description
(figure 4
DC VARIABLE FREQUENCY DRIVE
the right interface)
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Control interface
No.
Item
Functional Definition
Remark
1
EEROR-N
in case of failure, output 0V
in case of without failure, output is +24V
2
EEROR-P
in case of failure, output 24V
in case of without failure, output is +24V
Default disconnection: clockwise
3
REVERSE
motor running direction signal
Connected to the common terminal 0V or the power positive pole +24V:
counterclockwise
4
RUNA
run input signal A
5
RUNB
run input signal B
6
COMMON
common terminal
power supply 0V
Functional dip
No.
Item
Functional Definition
Remark
1
DIP-1
speed setting
refer to annexed table 1
2
DIP-2
speed setting
refer to annexed table 1
3
DIP-3
speed setting
refer to annexed table 1
4
DIP-4
speed setting
refer to annexed table 1
5
DIP-5
speed setting
refer to annexed table 1
6
DIP-6
current setting
default OFF: 3A, ON: 2A
7
DIP-7
brake setting
default OFF: EABS, ON: servo brake
8
DIP-8
speed acceleration/deceleration Setting
refer to annexed table 2
9
DIP-9
speed acceleration/deceleration Setting
refer to annexed table 2
10
DIP-10
Direction setting
default direction OFF: clockwise, ON: counterclockwise
Note: When the outlet wire of the drum motor is connected to the drive or the extension end, it is necessary to plug the
connector tightly, so that the white positioning line of the male head is completely covered by the female head (the female
head does not show the white line), and it is judged that the connector is firmly inserted.
3.3 Dip switch diagram and speed setting table
The DIP switch ON/OFF position
(figure 5
DC VARIABLE FREQUENCY DRIVE
dip switch position)
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Note: The area where the dip switch and LED are located is protected by a transparent plastic cover. Open the protective
cover outwards, set the corresponding dip switch, and fasten the protective cover tightly when closing the protective cover.
Annexed table 1 Dip switch speed setting table (DIP1-5)
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Annexed table 2 Dip switch speed acceleration/deceleration setting table (DIP8-9)
No.
DIP-8
DIP-9
Acceleration/Deceleration Speed (second)
1
OFF
OFF
2
2
ON
OFF
1
3
OFF
ON
0.5
4
ON
ON
0.2
Status lamp
No.
Item
Functional Definition
Remarks
fault-free: lights on
1
red LED
power indicator
fault alarm
faulty: blink (0.5S blink at an interval of 1.5S)
Once: Hall
3 times: overcurrent
twice: temperature 4 times: locked-rotor
2
green LED
Running status indicator
DC VARIABLE FREQUENCY DRIVE
6 times: undervoltage
7 times: overvoltage
fault-free: blink, faulty: lights off
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4. Terminal interface (I/O interface)
4.1 Input electrical schematic diagram
(figure 6
input electrical schematic diagram)
Input interface
No.
1
Item
RUNA
RUNB
Functional Definition
Remark
run input signal
1.RUNA, RUNB, REVERSE control signal can be NPN (activelow), also can be PNP (active-high).
2
REVERSE
motor running direction
signal
3
COMMON
common terminal (0v)
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4.2 Output electrical schematic diagram (optional function)
(figure 7
output electrical schematic diagram)
Output interface
No.
Item
Functional Definition
Remark
1
ERROR-N
run input signal
1. ERROR-N/ VERTOR-P100 Is the fault output point signal,
the signal is constant on.
2. ERROR-N/ VERTOR-P100 is an open leakage output
2
point. When there is an output signal, ERROR-N and COM
are connected, and VERTOR-P100 and VDD are
VERTOR-P100
connected.
3. FO output maximum current limit 20mA, maximum voltage
72V.
3
COMMON
common terminal (0v)
4
VDD
Internal power supply
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5. Electrical connection mode
5.1 Wiring speed control PNP mode
Wiring Diagram
RUNA
RUNB
Remark
ON
OFF
Motor roller runs at a set speed of 100%
OFF
ON
Motor roller runs at a set speed of 70%
ON
ON
Motor roller runs at a set speed of 30%
OFF
OFF
Motor roller stops running
5.2 Wiring speed control NPN mode
Wiring Diagram
RUNA
RUNB
Remark
ON
OFF
Motor roller runs at a set speed of 100%
OFF
ON
Motor roller runs at a set speed of 70%
ON
ON
Motor roller runs at a set speed of 30%
OFF
OFF
Motor roller stops running
5.3 Multiple drivers are connected to PLC in PNP mode
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5.3.1
LONGWEI AUTOMATIC
Multiple drive RUN port connect to PLC in PNP mode
(figure 8
multiple drive RUNA port connect to PLC in PNP mode)
Note: Figure 8 shows single PLC output points to the RUN A port of multiple drive. The same applies to RUN B and
REVERSE.
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5.3.2
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Multiple drive VERTOR-P100 port connect to PLC in PNP mode
(figure 9
multiple drive VERTOR-P100 port connect to PLC in PNP mode)
Note: Figure 9 shows single PLC output points to the ERROR-P port of multiple drive. This input point is triggered
when there is an error in any of the drive.
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5.4 Multiple drive connect to PLC in NPN mode
5.4.1
Multiple drive RUN port connect to PLC in NPN mode
(figure 10
multiple drive RUNA port connect to PLC in NPN mode)
Note: Figure 10 shows single PLC output points to the RUN A port of multiple drive. The same applies to RUN B and
REVERSE.
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5.4.2 Multiple drive VERTOR-P100 port connect to PLC in NPN mode
(figure 11
multiple drive ERROR-N port connect to PLC in NPN mode)
Note: Figure 11 shows single PLC output points to the ERROR-N port of multiple drive. This input point is triggered
when there is an error in any of the drive.
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