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ZF-D200 Series High-Performance Servo Drive for Precision Control

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OEM VFD

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ZF-D200 Series High-Performance Servo Drive for Precision Control

標準パッケージ:	カートンと合板のボックスパッケージ
配達期間:	3日
決済方法:	L/C、D/A、D/P、T/T、Western Union、MoneyGram
供給能力:	月額500-10000

製品の説明

ブランド名

ZFeng

CE、CB、CCC、ISO9001、ISO14001、ISO45001、EN61439、EN61000

モデル番号

D200シリーズ

入力電圧:

220/380V

マッチモーターパワー:

0.1 ~ 4.5 Kw

制御モデル:

最大出力電流:

3.5 ~ 32.0A

速度制御の範囲:

1:6000

ハイライト:

ZF-D200 servo drive 220/380V

servo drive for precision control

0.1-4.5Kw servo drive system

製品の説明

ZF-D200 Series High-Performance Servo Drive for Precision Control

A high-performance servo drive serves as the cornerstone of precision control, enabling nanometer-level control over motor position, speed, and torque through its high precision, rapid dynamic response, and robust anti-interference capabilities. It finds widespread applications in high-end fields such as industrial automation, robotics, and semiconductor manufacturing.

Core Performance Characteristics

High Precision and Resolution

Position/Speed Accuracy: Capable of precisely reaching target positions or maintaining target speeds within milliseconds or even microseconds, with errors controlled below the micrometer level and even reaching nanometer precision in certain scenarios.
Feedback Resolution: Supports high-precision encoders (e.g., absolute encoders, resolvers) or linear scales with resolutions exceeding one million lines, enabling picometer-level precision control.
Control Cycle: Short control cycles for current, speed, and position loops (e.g., <100μs), ensuring rapid implementation of commands on the motor.

High Dynamic Response Capability

Frequency Response Bandwidth: Extremely fast response to step and sine wave signals, with millisecond-level acceleration/deceleration capabilities and short settling times for high-speed tracking of command changes.
Current Regulation: High current loop bandwidth (e.g., 200kHz PWM versions) for instantaneous response to torque demand changes, supporting advanced algorithms such as model-based control and adaptive control.

High Overload and High Power Density

Overload Capacity: Capable of providing several times the rated torque/current for short periods (e.g., seconds) to handle inertia, rapid starts/stops, or shock loads.
Power Density: Delivers high power output within a compact volume, saving space in control cabinets.

Strong Anti-Interference and Vibration Suppression Capabilities

Anti-Interference: Robust resistance to power grid fluctuations, load changes, and environmental interference (e.g., electromagnetic noise) for stable operation.
Vibration Suppression: Built-in or software-configurable complex filters (e.g., notch filters, low-pass filters) effectively suppress mechanical resonances.

Intelligence and Openness

Adaptive Capability: Adapts to load or environmental changes through parameter auto-tuning or adaptive algorithms.
Communication Protocols: Supports high-speed real-time industrial Ethernet protocols (e.g., EtherCAT, Profinet IRT) for microsecond-level communication synchronization.
Interfaces and Compatibility: Supports multiple standard interfaces (e.g., CANopen, EtherNet/IP) for easy system integration and upgrades.

Typical Application Scenarios

Industrial Automation

CNC Machine Tools: Controls spindle and feed axis movements to ensure machining accuracy and surface finish.
Packaging Machinery: Achieves precise positioning on high-speed packaging lines to improve production efficiency.
Printing Machinery: Synchronizes multi-color printing to prevent registration errors.

Robotics

Joint Drives: Enables precise grasping, welding, and assembly operations in robot joints with rapid dynamic response for high-speed starts/stops.
Collaborative Robots: Ensures safe human-robot collaboration through torque control modes.

Semiconductor Manufacturing

Lithography Machines: Controls wafer stage movements for nanometer-level positioning accuracy.
Wire Bonders: Completes chip-to-substrate connections within micrometer-level spaces.

Medical Equipment

CT/MRI Scanner Beds: Achieves precise positioning through position control modes to enhance imaging quality.
Surgical Robots: Controls the minute movements of surgical tools for improved surgical safety.

Aerospace

Actuator Control: Maintains high reliability in extreme environments for precise attitude adjustment of aircraft.
Simulators: Simulates complex motion scenarios through rapid dynamic response.

Technological Development Trends

Higher Precision and Faster Response: With advancements in materials science and electronics, servo drives will further optimize resolution and control cycles to meet future smart manufacturing demands for nanometer-level control.
Intelligence and Adaptive Control: Integration of artificial intelligence and machine learning technologies enables load adaptation, fault prediction, and health management (PHM) to enhance system reliability and maintenance efficiency.
Integrated and Modular Design: Integration of controllers, drives, and motors reduces system volume and wiring complexity, while modular expansion supports diverse application scenarios.
Green Energy Efficiency and High Performance: Adoption of novel power devices (e.g., SiC, GaN) and efficient control algorithms reduces energy consumption and improves energy conversion efficiency, aligning with global energy-saving trends.

タグ:

製品

標準パッケージ:	カートンと合板のボックスパッケージ
配達期間:	3日
決済方法:	L/C、D/A、D/P、T/T、Western Union、MoneyGram
供給能力:	月額500-10000

詳細情報

製品の説明

詳細情報

ブランド名

ZFeng

証明

CE、CB、CCC、ISO9001、ISO14001、ISO45001、EN61439、EN61000

モデル番号

D200シリーズ

入力電圧:

220/380V

マッチモーターパワー:

0.1 ~ 4.5 Kw

制御モデル:

IGBT

最大出力電流:

3.5 ~ 32.0A

速度制御の範囲:

1:6000

パッケージの詳細:

カートンと合板のボックスパッケージ

受渡し時間:

3日

支払条件:

L/C、D/A、D/P、T/T、Western Union、MoneyGram

供給の能力:

月額500-10000

ハイライト

ZF-D200 servo drive 220/380V

servo drive for precision control

0.1-4.5Kw servo drive system

製品の説明

ZF-D200 Series High-Performance Servo Drive for Precision Control

Core Performance Characteristics

High Precision and Resolution

Position/Speed Accuracy: Capable of precisely reaching target positions or maintaining target speeds within milliseconds or even microseconds, with errors controlled below the micrometer level and even reaching nanometer precision in certain scenarios.
Feedback Resolution: Supports high-precision encoders (e.g., absolute encoders, resolvers) or linear scales with resolutions exceeding one million lines, enabling picometer-level precision control.
Control Cycle: Short control cycles for current, speed, and position loops (e.g., <100μs), ensuring rapid implementation of commands on the motor.

High Dynamic Response Capability

Frequency Response Bandwidth: Extremely fast response to step and sine wave signals, with millisecond-level acceleration/deceleration capabilities and short settling times for high-speed tracking of command changes.
Current Regulation: High current loop bandwidth (e.g., 200kHz PWM versions) for instantaneous response to torque demand changes, supporting advanced algorithms such as model-based control and adaptive control.

High Overload and High Power Density

Overload Capacity: Capable of providing several times the rated torque/current for short periods (e.g., seconds) to handle inertia, rapid starts/stops, or shock loads.
Power Density: Delivers high power output within a compact volume, saving space in control cabinets.

Strong Anti-Interference and Vibration Suppression Capabilities

Anti-Interference: Robust resistance to power grid fluctuations, load changes, and environmental interference (e.g., electromagnetic noise) for stable operation.
Vibration Suppression: Built-in or software-configurable complex filters (e.g., notch filters, low-pass filters) effectively suppress mechanical resonances.

Intelligence and Openness

Adaptive Capability: Adapts to load or environmental changes through parameter auto-tuning or adaptive algorithms.
Communication Protocols: Supports high-speed real-time industrial Ethernet protocols (e.g., EtherCAT, Profinet IRT) for microsecond-level communication synchronization.
Interfaces and Compatibility: Supports multiple standard interfaces (e.g., CANopen, EtherNet/IP) for easy system integration and upgrades.

Typical Application Scenarios

Industrial Automation

CNC Machine Tools: Controls spindle and feed axis movements to ensure machining accuracy and surface finish.
Packaging Machinery: Achieves precise positioning on high-speed packaging lines to improve production efficiency.
Printing Machinery: Synchronizes multi-color printing to prevent registration errors.

Robotics

Joint Drives: Enables precise grasping, welding, and assembly operations in robot joints with rapid dynamic response for high-speed starts/stops.
Collaborative Robots: Ensures safe human-robot collaboration through torque control modes.

Semiconductor Manufacturing

Lithography Machines: Controls wafer stage movements for nanometer-level positioning accuracy.
Wire Bonders: Completes chip-to-substrate connections within micrometer-level spaces.

Medical Equipment

CT/MRI Scanner Beds: Achieves precise positioning through position control modes to enhance imaging quality.
Surgical Robots: Controls the minute movements of surgical tools for improved surgical safety.

Aerospace

Actuator Control: Maintains high reliability in extreme environments for precise attitude adjustment of aircraft.
Simulators: Simulates complex motion scenarios through rapid dynamic response.

Technological Development Trends

Higher Precision and Faster Response: With advancements in materials science and electronics, servo drives will further optimize resolution and control cycles to meet future smart manufacturing demands for nanometer-level control.
Intelligence and Adaptive Control: Integration of artificial intelligence and machine learning technologies enables load adaptation, fault prediction, and health management (PHM) to enhance system reliability and maintenance efficiency.
Integrated and Modular Design: Integration of controllers, drives, and motors reduces system volume and wiring complexity, while modular expansion supports diverse application scenarios.
Green Energy Efficiency and High Performance: Adoption of novel power devices (e.g., SiC, GaN) and efficient control algorithms reduces energy consumption and improves energy conversion efficiency, aligning with global energy-saving trends.

タグ:

ベクトル Vfd

サーボ VFD

低電圧 VFD

高電圧 VFD

ボールミル VFD

空気圧縮機 VFD

ウェルポンプ VFDコントローラ

吹風機 VFD

サーボ駆動システム

スクロール式空気圧縮機

モーターのソフトスターター

インバーター制御キャビネット

一般電気用アクセサリー

OEM VFD

ZF-D200 Series High-Performance Servo Drive for Precision Control

ZF-D200 servo drive 220/380V

servo drive for precision control

0.1-4.5Kw servo drive system

ACサーボモータードライブ,

ACサーボ制御システム,

ベクトル Vfd

サーボ VFD

低電圧 VFD

高電圧 VFD

ボールミル VFD

空気圧縮機 VFD

ウェルポンプ VFDコントローラ

吹風機 VFD

サーボ駆動システム

スクロール式空気圧縮機

モーターのソフトスターター

インバーター制御キャビネット

一般電気用アクセサリー

OEM VFD

ZF-D200 servo drive 220/380V

servo drive for precision control

0.1-4.5Kw servo drive system

ACサーボモータードライブ,

ACサーボ制御システム,