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Servo Motor Drives

Servo Motor Drives
Servo Motor Drives

MZ630P Series Servo Motor Drives

This Servo motor drives offer several benefits, including high precision and accuracy in motion control, improved energy efficiency, and the ability to handle complex tasks. They provide faster response times compared to traditional motors, making them ideal for applications requiring quick and precise movements.
Servo Motor Drives Name Rule

MZ630P Series Servo Motor Drives Characteristic


Type
Series
Characteristic
Servo Motor Drives
MZ630P
Quickly
3.0kHZ Corresponding bandwidth of speed loop
Convenient
Wiring is simple and convenient
Eliminate limit and origin
One-touch adjustment
Easy to replace encoder battery
Precise
The encoder resolution reaches 17/23bit
Strong adaptability to the environment
Meet safety standards
The Servo Motor Drives reaches a higher waterproof level
Safe and reliable to use,Wiring is simple and convenient

Servo System Wiring connection


Servo System Wiring connection
Circuit breaker for wiring
Used to protect the power line and cut of the circuit if over current.

Noise flter
Install a noise flter to prevent external noise.

Electromagnetic contactor
Turns on/of servo power . Please install a surge suppressor.

Electromagnetic contactor
Use external resistor,remove the B2 and B3 tabs, connect the braking resistor between B1+ and B2;use an internal braking,short circuit B2 and B3.

Brake power
24V dc voltage source, used as the motor has a hol brake.

Electromagnetic contactor
Brake control signal, turn on/of brake power.Install a surge suppressor.

Please pay attention to the power supply capacity when connecting external control power supply or 24Vdc power supply, especially when supplying power to several drives or multiple brakes at the same time, insufficient power supply capacity will lead to insufficient supply current and failure of the driver or the brake. The braking power supply is a 24V DC voltage source. The power should refer to the motor model and meet the braking power requirements.

System wiring precautions:
1. When connecting an external braking resistor, please remove the short-circuit wire between terminals B2 and B3 of the servo driver before connecting. Pay attention to modify the internal parameters.
2. CN3 and CN4 define exactly the same communication interface for the two pins, which can be used arbitrarily between the two.
3. In single-phase 220V wiring, the main circuit terminals are L1 and L2, and the reserved terminals should not be connected.

Servo Motor Drives specifications


Item Specifications
Model Type MZ630PS □□□ I 1R6 2R8 5R5 7R6 012 015 018 025 032 045 060 075
outlook A(mm)
32
32
53
88
130
190
B(mm)
152
152
152
248
352
447
W(mm)
148
148
186
215
215
215
H(mm)
160
160
160
258
368
463
D(mm)
42
56
65
110
206
224
R(mm)
2.5
2.5
2.5
2.8
3.5
3.5
Weight(kg)
0.8
1.0
1.5
5.1
8.3
12
Input Power Single phase/ three phase -15%~10%,50/60Hz
Three phase AC200V-240V,-15%~10%,50/60Hz
Model Type MZ630PT □□□ I
3R5
5R4
8R4
012
017
021
026
032
037
045
060 075
outlook A(mm)
49
70
88
130
190
B(mm)
162
193
248
352
447
W(mm)
177
204
215
215
215
H(mm) 174
203
258
368
463
D(mm)
60
92
110
206
224
R(mm)
2.5
2.8
2.8
3.5
3.5
Weight(kg)
1.3
2.7
5.1
8.3
12
Input Power
Three phase AC380V-440V,-15%~ 10%,50/ 60Hz
Basic information Environment Temp ℃ Use environment temperature 0~+55℃ (decrease if the ambient temperature is between 40℃ and 50℃ )
Storage environment temperature -20 ~ 65℃
Humidity Use environment 20~85% RH below(No condensation)
Storage environment humidity 20~85% RH below(No condensation)
Use and preserve ambient air indoor(no sunshine)、No corrosive gas, flammable gas, oil mist, dust
altitude Below 1000m
vibration 5.8m/s2(0.6G)below 10~60Hz(Can not be used continuously at resonance frequency)
Insulation withstand voltage Basic-FG between AC1500V 1min
Control way Three-phase PWM converter sine wave drive
Encoder feedback 1: 17bit (after adding a battery, it can be used as a multi-turn absolute encoder)
2: 23bit (after adding a battery, it can be used as a multi-turn absolute encod
3: rotary encoder
Control signal Input 9 inputs (DC24V optocoupler isolation) switch according to the control mode function
Output 5 output (DC24V optocoupler isolation, open collector output) switch according to the control mode function
Pulse signal Input 2 inputs (optocoupler isolation, RS-422 differential, open collector output)
Output 4 outputs (A/B/Z phase RS-422 differential; Z phase open collector output)
Comm function RS232 For PC communication (for "Servostudio" connection)
RS-485 For upper remote control communication (1:n)
CAN CANOPEN bus communication
Regeneration function Optional regenerative resistor, external regenerative resistor. Pay attention to modify internal parameters
Control model 6 control modes: speed control, position control, torque control, torque/speed control, speed/position control, torque/position, torque/speed/position hybrid control

Item Specifications
Function Control input Alarm reset, proportional action switching, zero fixed function enable, forward drive prohibited, reverse drive prohibited, external torque limit for forward rotation, external torque limit for reverse rotation,forward jog, reverse jog, forward Reset switch, reverse reset switch, origin switch, emergency stop, servo enable, gain switch
Control output Servo ready, motor rotating, zero speed signal, speed reached, position reached, positioning approach signal, torque limit, speed limit, brake output, warning, servo failure, alarm code (3-digit output)
Position Pulse input Maximum command pulse frequency Diferential input: high-speed maximum 4Mpps, pulse width cannot be less than 0.125μs
The maximum low speed is 500Kpps, and the pulse width cannot be less than 1μs
Open collector: maximum 200Kpps, pulse width cannot be less than 2.5μs
Input pulse signal form Differential input; open collector
Input pulse signal method
Pulse + direction, right angle phase difference (A phase + B phase), CW + CCW pulse
Command pulse multiplication division/ (Electronic gearratio setting) 0.1048576 < B/A <419430.4
Command filter Smoothing filter, FIR filter
Pulse output
Output pulse form
Phase A, Phase B: Differential output
Z phase: differential output or open collector output
Frequency division ratio
Arbitrary frequency division
Output pulse function
Encoder position pulse and position pulse command (can be set)
Speed control Control input Servo ON, alarm reset, speed command reverse, zero speed clamp, internal command selection input 1, internal command selection input 2, internal command selection input 3, internal command selection input 4, forward rotation external torque limit input, reverse rotation External torque limit input, emergency stop
Control output Alarm status, servo preparation, brake release, torque limit output, speed limit output speed reached,speed consistent, motor rotation output, zero-speed signal output
Torque Control Control input Servo ON, alarm reset, torque command reverse, zero speed clamp
Control output Alarm status, servo preparation, brake release, torque limit, speed limit output, emergency stop
Torque command input (Factory default setting, the range can be set by function code)
Speed limit function Positive and negative internal speed limit P03.27, P03.28
Common Speed observer function YES
Damping control function YES
Adaptive notch filter YES
Automatic adjustment function YES
Encoder output frequency division YES
Internal location planning function YES
Adjustment/ function setting Use the host computer setting software "Servo studio" to adjust
Protection Over voltage, abnormal power supply, over current, overload, abnormal encoder, over speed, excessive position deviation, abnormal parameters, etc.

Servo Motor Drives installation dimensions

Servo Motor Drives installation dimensions

FAQ

servo motor drives is an electronic device that controls the motion of a servo motor. It receives commands from a controller and adjusts the motor's speed, position, and torque accordingly.

Servo motor drives are used in a wide range of applications, including robotics, CNC machines, conveyor systems, and automated manufacturing processes. They are ideal for tasks that require precise control of speed, position, and torque, making them essential in modern automation.

There are several types of servo motor drives, including AC servo drives, DC servo drives, and brushless servo drives. Each type has its own advantages and is suited for different applications. AC servo drives are commonly used in industrial settings, while DC drives are often found in smaller, less demanding applications.

Yes, our servo motor drives are designed to operate in harsh environments. They can be equipped with protective enclosures, conformal coatings, and other features to withstand dust, moisture, and extreme temperatures.

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