Wednesday, June 27, 2012

NICE900 Door Motor Technical parameters


Model: NICE900 Door Motor

Technical parameters


System Model
Input Voltage
Power capacity (kVA)
Input Current (A)
Output Current (A)
Appropriate Motor (W)
NICE-D-A-S0P2
Single Phase 220V
-15%~20%
0.5
2.7
1.3
200
NICE-D-A-S0P4
1.0
5.4
2.3
400
NICE-D-A-S0P7
1.5
8.2
4.0
750
 
Technical Specifications
 
Category
Details
Technical Specifications
Capability Controls
Maximum Output Frequency
99.00Hz
SpeedRange
1:50 (magnetic flux vector control), 1:1000 (vector control)
Speed Stabilizing Precision
±0.5% (magnetic flux vector control), ±0.05% (Closed Loop vector control
Startup Torque
0Hz-180% (Closed Loop vector control)  
1Hz-150% (magnetic flux vector control)
Frequency Resolution
0.01Hz
Current resolution
0.001A
Carrier Frequency
2kHz~16kHz
Main Capabilities
Supports static and dynamic tuning motor parameters for AC asynchronous motors.
Supports idle load and loaded motor tuning parameters and coding zero point positions for AC magnetic synchronous motors.
Supports AC magnetic synchronous vector control ABZ encoding , encoder open circuit collector ouput or push-pull output.
Supports automatic torque increases, manual torque increases, overexcitation and other capabilities for magnetic flux vector control.
Supports direct stopping in distance control (under development)
Supports door-width auto-learning
Supports automatic demos
Supports automatic malfunction identification.
Protection Capabilities
Controller overload protection: 150% of rated current for 1m, 180% of rated current for 1s
Supports controller overvoltage protection, undervoltage protection, overcurrent protection, ouput lack phase protection and phase-phase short circuit protection.
Environment
Installation Conditions
Indoor use only, keep out of direct sunlight, avoid contact with dust, corrosive gases, flammable gases, smoke, vapor, condensation and salts.
Elevation
Lower than 1000m; if higher than 1000m, please derate to use
Temperature
 -10oC~+40oC (in temperatures of 40oC-50oC, please derate to use)
Humidity
 Less than 95%RH; no condensation
Shock
 Less than 5.9m/s2 (0.6g)
Storage Temperature
-20℃~+60℃
Cooling Method
0.2kW: self cooled; 0.4kW and 0.75kW: wind cooled
Protection Level
IP20
Storage Location
Store in a clean, dry indoor place.
Shipping Method
Ship in standard container via motor vehicle, train, plane or ship.
Shipping Vibration
Sine vibration 9~200Hz/hr, 15m/s2 (1.5g)
 
External and Installation Hole Site Dimensions


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Specialized Drive for Elevator NICE900 Door Motor Overview

NICE900 Door Motor Overview
NICE900 Door Motor
NICE900 Door Motor

Model: NICE900 Door Motor

Input Voltage: Single Phase 220V
Power Capacity (kVA):0.5~1.5
Input Current (A):2.7~8.2
Output Current (A):1.3~4.0
 Appropriate Motor (kW):200~750
The NICE900 integrated products for door motors is a drive controller for a variety of door systems, including elevator doors, freezer doors and subway car doors. It has integrated door opening logic controls and electric motor drive controls so that the external system only has to send the command to achieve complete control of the entire door system.
This product can drive both AC asynchronous and synchronous motors and supports speed control and distance control modes, greatly expanding the range of applications of these products, allowing this product to fulfill the majority of needs for door system drive controls.

Naming Rules



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Servo Drive IS500 Technical parameters


Model: Servo Drive IS500

Technical parameters



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Servo Drive IS500 Overview


Model: Servo Drive IS500

Servo Drive IS500 Overview
Servo Drive IS500

Model definition



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Servo Drive IS100 Overview

Servo Drive IS100
Servo Drive IS100

Input Voltage: Single Phase 220V
Power Capacity (kVA): 0.5~1.5

Input Current (A): 2.7~8.2
Output Current (A): 1.3~4.0


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MDFB Series Energy Feedback Unit

MDFB Series Energy Feedback Unit
MDFB Series Energy Feedback Unit

Overview

Input Voltage:
Power Capacity (kVA):
Input Current (A):
Output Current (A):
Appropriate Motor (kW):
With rapid social development and the conflict between the demand for and supply of electricity, environmentally friendly products have become a necessary trend that has important socio-economic repercussions.
 The MDFB Series Energy Feedback Unit is a high performance product that has been carefully designed to satisfy the needs of our customers.
The MDFB Series Energy FeedbackUnit takes the energy created in the motor during the process of braking and feeds it back into the frequency converter, when the transfers it to the grid. While allowing the frequency converter to effectively apply baking, this products is able to recover and use over 95% of this energy. This product has complete overheating, overvoltage and overcurrent protection. With low noise, low harmonic pollution, high power factor and so on.


Technical parameters

■Quiet Design – noise below 58dB when in operation
■Low harmonic content – THD ≤5%
■Parallel Use – no limit on automatic flow equalization; simple and dependable parallel use

 
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Standard Drive MD330 Technical parameters


Technical parameters

Function
 code
 Name
 Set range
 Minimum unit
 Leave
factory set value
 Cha-nge
Control mode selection
FH-00
Tension control mode
 0: inactive
1: Open-loop torque control mode
2: Close-loop speed control mode
3: Close-loop torque control mode
4: Constant line speed control mode
1
0
×
FH-01
Curling mode
 0: wind-up
1: roll-down
1
0
FH-02
Selection of inverse take-up during roll-down
 0: Not allowed
Active inverse material take-up is not allowed during startup
1: allowed
Active inverse material take-up  is allowed during startup
1
0
FH-03
mechanical transmission ratio
 0.01~300.00
0.01
1.00
Tension setting part
FH-04
Tension setting source
 0:  FH-05 setting
1:  AI1 setting
2: AI2 setting
3: AI3 setting
4: PULSE input setting
5:  communication setting
1
0
×
FH-05
Tension setting
 0N~30000N
1
0
×
FH-06
maximum tension
 0N~30000N
1
0
×
FH-07
Zero-speed tension increase
 0.0%~50.0%
0.1%
0.0%
FH-08
zero-speed threshold
 0.0~20% ( maximum frequency)
1%
0%
FH-09
tension taper
 0.0%~100.0%
0.1%
0.0%
×
Curling radius calculation part
FH-10
curling radius calculation method selection
 0: calculation through line speed
1: Calculation through thickness accumulation
2: AI1 input
3: AI2 input
4: AI3 input
5: pulse input
1
0
×
FH-11
maximum curling radius
 1mm~10000mm
1
500
×
FH-12
winding shaft diameter
 1mm~10000mm
1
100
×
FH-13
initial curling radius source
 0:  FH-12~FH-15 setting
1:  AI1 setting
2: AI2 setting
3: AI3 setting
1
0
×
FH-14
initial curling radius 1
 1mm~10000mm
1mm
100mm
FH-15
initial curling radius 2
 1mm~10000mm
1mm
100mm
FH-16
initial curling radius 3
 1mm~10000mm
1mm
100mm
FH-17
curling radius filtering time
 0.0s~100.0s
0.1s
1.0s
FH-18
current value of curling radius
 1mm~10000mm
---
---
Relevant parameters for curling radius calculation with thickness accumulation
FH-19
Number of pulses each turn
 1~60000
1
1
FH-20
Number of turns each layer
 1~10000
1
1
FH-21
Material thickness setting source
 0: Digital setting
1:  AI1 setting
2: AI2 setting
3: AI3 setting
1
0
FH-22
Material thickness 0
 0.01mm~100.00mm
0.01mm
0.01mm
FH-23
Material thickness 1
 0.01mm~100.00mm
0.01mm
0.01mm
FH-24
Material thickness 2
 0.01mm~100.00mm
0.01mm
0.01mm
FH-25
Material thickness 3
 0.01mm~100.00mm
0.01mm
0.01mm
FH-26
maximum thickness
 0.01mm~100.00mm
0.01mm
1.00mm
Line speed input part
FH-27
line speed input source
 0: No input
1: AI1
2: AI2
3: AI3
4: pulse input
5:  communication setting
1
0
FH-28
maximum line speed
 0.10m/Min~
6500.0m/Min
0.1m/Min
1000.0m/Min
FH-29
minimum line speed for curling radius calculation
 0.10m/Min~
6500.0m/Min
0.1m/Min
200.0m/Min
FH-30
Actual line speed
 0.10m/Min~
6500.0m/Min
―――
―――
Tension compensation part
FH-31
compensation coefficient self learning torque setting
 5.0%~80.0%
0.1%
20.0%
FH-32
compensation self learning action
 0: no operation
1: Start to identify
automatically restore to 0 when the self learning is ended.
1
0
FH-33
 mechanical inertia compensation coefficient
 1~10000
1
0
FH-34
material density
 0 Kg/m^3~
60000Kg/m^3
1Kg/m^3
0Kg/m^3
FH-35
material width
 0mm~60000mm
1mm
0mm
FH-36
friction compensation coefficient
 0.0%~50.0%
0.1%
0.0%
material supply interrupt auto detection parameters
FH-37
material supply interrupt auto detection function selection
 0: inactive
1: active
1
0
×
FH-38
material supply interrupt auto detection minimum frequency
 0.00Hz~50.00Hz
0.01Hz
10.00Hz
FH-39
material supply interrupt auto detection error range
 0.1%~50.0%
0.1%
10.0%
FH-40
material supply interrupt auto detection judgment delay
 0.1s~60.0s
0.1s
2.0s
the second group of PID parameters
FH-41
proportional gain 2
 0.0s~100.0s
0.1
20.0
FH-42
integral time I2
 0.01s~10.00s
0.01s
2.00s
FH-43
differential time D2
 0.000s~1.000s
0.001s
0.000s
FH-44
auto adjustment basis for PID parameters
 0: Only the first group of PID parameters are used
1: Adjust according to the curling radius
2: Adjust according to the operating frequency
3: Adjust according to the line speed
1
0
Auto roll alternation parameter
FH-45
pre-drive speed gain
 -50.0%~+50.0%
0.1%
0.0%
FH-46
pre-drive torque limit selection
 0: F2-09 setting
1: Set the limit according to tension setting
1
0
FH-47
pre-drive torque gain
 -50.0%~+50.0%
0.1%
0.0%
FH-48
tension taper source selection
 0: FH-09 setting
1:  AI1 setting
2: AI2 setting
3: AI3 setting
1
0
FH-49
tension close loop control adjustment limit
 0.0%~100.0%
0.1%
50.0%
FH-50
tension close loop control adjustment limit offset
 0.0%~100.0%
0.1%
0.0%
FH-51
high-speed torque compensation coefficient
 -50.0%~+50.0%
0.1%
0.0%
FH-52
compensation basis
 0: frequency
1: line speed
1
0
FH-53
 
external taper control maximum output setting source
 0:  FH-54 setting
1:  AI1 setting
2: AI2 setting
3: AI3 setting
1
0
FH-54
external taper control maximum output digital setting
 0.0%~100.0%
0.1%
100.0%
FH-55
pre-drive curling radius calculation selection
 0: calculate
1: stop calculation
1
0
FH-56
curling radius calculation stop delay after ending of pre-drive
 0.0s~10.0s
0.1s
5.0s
FH-57
tension increase ratio
 0.0%~200.0%
0.1%
50.0%
FH-58
line speed setting source
 0:  AI1 setting
1: AI2 setting
2: AI3 setting
3: pulse setting
4:  communication setting
1
0
FH-59
taper compensation correction
 1mm~10000mm
1mm
0
FH-60
tension taper effectiveness selection for close loop tension control
 0: taper effective
1: taper ineffective
1
0
input/output selection
F7-04
operation display selection
 BIT13: curling radius
BIT14: tension setting
 
 
 
F7-05
stop display selection
 BIT10: tension setting
BIT11: curling radius
When switching to display the curling radius during the stop, the curling radius can be changed by the UP/DOWN terminal or relevant button.
 
 
 
F5-07~
F5-09
analog output selection
 12: external taper control output
13: curling radius output: 0%~100% corresponds to 0~maximum curling radius
14: actual tension (after taper calculation)
 
 
 
F4-00
DI1 terminal function selection
 31: curling radius reset
32: initial curling radius selection terminal 1
33: initial curling radius selection terminal 2
34: Pre-drive input terminal
35: turn counting signal
36: Torque memory
37: torque memory enable
38: wind-up roll-down switching
39: curling radius calculation stop
40: thickness selection terminal 1
41: thickness selection terminal 2
42 tension control disable terminal
43: torque increase terminal
 
 
×
F4-01
DI2 terminal function selection
 
 
×
F4-02
DI3 terminal function selection
 
 
×
F4-03
DI4 terminal function selection
 
 
×
F4-04
DI5 terminal function selection
 
 
×
F4-05
DI6 terminal function selection
 
 
×
F4-06
DI7 terminal function selection
 
 
×
F4-07
DI8 terminal function selection
 
 
×
F4-08
DI9 terminal function selection
 
 
×
F4-09
DI10 terminal function selection
 
 
×


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Standard Drive MD330 Overview

Standard industrial automation products Standard Drive
Standard Drive MD330

Overview
MD330 is used for curling control. It can automatically calculate the curling radius and is able to realize constant tension when the curling radius changes. To realize constant torque control in the applications without curling radius change, MD320 inverter is recommended.
When the tension control mode is selected, the output frequency and torque of the inverter will be automatically generated by the tension control function, and the frequency source selection in group F0 will.


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