This high-speed three-axis rotary table is designed for dynamic sensor testing and INS (Inertial Navigation System) calibration. It delivers exceptional angular rate performance, precise motion control, and stable operation, making it ideal for aerospace, industrial, and defense applications.

The system integrates advanced multi-axis motion control with dynamic environmental simulation, enabling accurate trajectory emulation and rigorous operational testing under extreme conditions. It is suitable for gyroscopes, accelerometers, optical guidance systems, and communication antennas.

Key Features

High-precision 3-axis control
- Ensures accurate angular rate and positioning
- Supports complex motion simulation: position, rate, and swing modes
High load adaptability
- Stable performance under varying payloads
Wide angular speed range
- Supports both low-speed calibration and high-speed dynamic simulation
High-speed dynamic simulation
- Accurate trajectory emulation for aerospace, industrial, and defense environments
Reliable sensor calibration
- Ensures repeatable and stable testing for IMUs, gyroscopes, and accelerometers

Hardware Construction

Modular mechanical design for easy maintenance
Multiple safety protections for secure operation
Real-time monitoring and precise motion control
Self-checking and self-calibration for intelligent, stable operation
Industrial-grade control computer for high performance and reliability

Software Features (MotorHost Control Software)

One-click device identification
Accurate and efficient trajectory planning
Real-time motion control adjustment
Full-function testing infrastructure
User-friendly human-machine interface
Intelligent early warning and fault handling system

1. Load Installation
- Dimensions (min)	400 mm (L) × 400 mm (W) × 350 mm (H)
- Mass Range (incl. fixtures)	1 kg ~ 40 kg
- Max Load Inertia	0.4 kg•m²
2. Structural Requirements
- Rotation Angle	Continuous infinite rotation
- Structure Type	UOO
- Three-Axis Perpendicularity	≤ ±2 arcsec
- Three-Axis Intersection	≤ Ø0.5 mm sphere
- Inner Frame Mounting Surface Flatness	≤ 0.02 mm
- Axis Tilt Rotation Accuracy	±2 arcsec
- Reference Prism (North Guidance)	Mounting accuracy ≤ ±5 arcsec
- Locking Mechanism	Middle frame: Mechanical lock
- Locking Mechanism	Inner/Middle/Outer axes: Electromagnetic locks
- Horizontal Adjustment Range	Ensures installation adjustment accuracy ≤ ±2 arcsec
3. Position Indicators
- Angular Position Accuracy	±2 arcsec
- Angular Repeatability	±1 arcsec
- Angular Resolution	0.36 arcsec
4. Angular Velocity
- Range:
Outer Axis	±0.001°/s ~ ±500°/s
Middle Axis	±0.001°/s ~ ±600°/s
Inner Axis	±0.001°/s ~ ±1000°/s
Max 3-Axis Linkage	±60°/s
- Accuracy:
ω ≥ 10°/s	0.00001 (360° avg)
1°/s ≤ ω < 10°/s	0.0001 (10° avg)
ω < 1°/s	0.001 (1° avg)
- Stability:
ω ≥ 10°/s	0.00001 (360° avg)
1°/s ≤ ω < 10°/s	0.0001 (10° avg)
ω < 1°/s	0.001 (1° avg)
5. Max Angular Acceleration
- Outer Axis (with load)	100°/s²
- Middle Axis (with load)	200°/s²
- Inner Axis (with load)	300°/s²
6. Swing Function
- Formula	a=A(2πf)2a=A(2πf)2
- Formula	Where: a = acceleration, A = amplitude, f = frequency
- Swing Frequencies	6 Hz, 8 Hz, 10 Hz (limited by max acceleration

High Precision Dynamic Motion Simulator Three Axis Rate Table for Inertial Navigation System Testing and Calibration

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High Precision Three Axis Rate Table with 1-Year Warranty Temperature Chamber for Inertial Navigation System Testing

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High Precision Dual Axis Rate Table with 1-Year Warranty Temperature Chamber for Inertial Navigation System Testing Calibration

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Products

MOQ:	1 set
Payment Method:	T/T

Detail Information

Product Description

Detail Information

Place of Origin

Hubei China

Brand Name

Wuhan Deep Pilot

Minimum Order Quantity:

1 set

Payment Terms:

T/T

Product Description

Key Features

High-precision 3-axis control
- Ensures accurate angular rate and positioning
- Supports complex motion simulation: position, rate, and swing modes
High load adaptability
- Stable performance under varying payloads
Wide angular speed range
- Supports both low-speed calibration and high-speed dynamic simulation
High-speed dynamic simulation
- Accurate trajectory emulation for aerospace, industrial, and defense environments
Reliable sensor calibration
- Ensures repeatable and stable testing for IMUs, gyroscopes, and accelerometers

Hardware Construction

Modular mechanical design for easy maintenance
Multiple safety protections for secure operation
Real-time monitoring and precise motion control
Self-checking and self-calibration for intelligent, stable operation
Industrial-grade control computer for high performance and reliability

Software Features (MotorHost Control Software)

One-click device identification
Accurate and efficient trajectory planning
Real-time motion control adjustment
Full-function testing infrastructure
User-friendly human-machine interface
Intelligent early warning and fault handling system

1. Load Installation
- Dimensions (min)	400 mm (L) × 400 mm (W) × 350 mm (H)
- Mass Range (incl. fixtures)	1 kg ~ 40 kg
- Max Load Inertia	0.4 kg•m²
2. Structural Requirements
- Rotation Angle	Continuous infinite rotation
- Structure Type	UOO
- Three-Axis Perpendicularity	≤ ±2 arcsec
- Three-Axis Intersection	≤ Ø0.5 mm sphere
- Inner Frame Mounting Surface Flatness	≤ 0.02 mm
- Axis Tilt Rotation Accuracy	±2 arcsec
- Reference Prism (North Guidance)	Mounting accuracy ≤ ±5 arcsec
- Locking Mechanism	Middle frame: Mechanical lock
- Locking Mechanism	Inner/Middle/Outer axes: Electromagnetic locks
- Horizontal Adjustment Range	Ensures installation adjustment accuracy ≤ ±2 arcsec
3. Position Indicators
- Angular Position Accuracy	±2 arcsec
- Angular Repeatability	±1 arcsec
- Angular Resolution	0.36 arcsec
4. Angular Velocity
- Range:
Outer Axis	±0.001°/s ~ ±500°/s
Middle Axis	±0.001°/s ~ ±600°/s
Inner Axis	±0.001°/s ~ ±1000°/s
Max 3-Axis Linkage	±60°/s
- Accuracy:
ω ≥ 10°/s	0.00001 (360° avg)
1°/s ≤ ω < 10°/s	0.0001 (10° avg)
ω < 1°/s	0.001 (1° avg)
- Stability:
ω ≥ 10°/s	0.00001 (360° avg)
1°/s ≤ ω < 10°/s	0.0001 (10° avg)
ω < 1°/s	0.001 (1° avg)
5. Max Angular Acceleration
- Outer Axis (with load)	100°/s²
- Middle Axis (with load)	200°/s²
- Inner Axis (with load)	300°/s²
6. Swing Function
- Formula	a=A(2πf)2a=A(2πf)2
- Formula	Where: a = acceleration, A = amplitude, f = frequency
- Swing Frequencies	6 Hz, 8 Hz, 10 Hz (limited by max acceleration

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