Audited Supplier
5030
Non Portable
Flatbed
Security Check, Industrial
Conveying X-ray Detector
CE, ISO
Customized
Display Alarm
Support
2 Year
Support
Support
8mm
120kg
80kv
110-220V
vikingdetector
Strong Ploywooden Case
2CBM
Guangdong China
9031499090
Product Description
Airport Body Scanner Xray Checkpoint Endpoint Security
"Advancing Airport Security: X-ray Body Scanner Checkpoint Endpoint Systems"
**I. Introduction**
A. Significance of Airport Security
B. Evolution of Body Scanner Checkpoint Endpoint Systems
C. Objectives of Heightened Security Measures
**II. Principles of X-ray Body Scanner Systems**
A. X-ray Imaging Technology
B. Key Components
1. X-ray Generator
2. Detector Array
3. Image Processing Unit
4. Automated Threat Recognition Software
**III. Features and Capabilities**
A. Whole-Body Imaging
B. Material Discrimination
C. Privacy Filters
D. Real-time Image Analysis
**IV. Integration with Security Protocols**
A. Seamless Checkpoint Operations
B. Synergy with Walk-Through Metal Detectors
C. Coordination with Baggage Screening Systems
**V. Advanced Technologies in Body Scanning**
A. Millimeter-Wave Imaging
B. Artificial Intelligence for Threat Detection
C. Automated Anomaly Recognition
**VI. Customization for Airport Security Environments**
A. High-Traffic Checkpoints
B. Coordinated Passenger Flow Management
C. Integration with Access Control and Biometric Systems
**VII. Regulatory Compliance and Standards**
A. Compliance with Aviation Authorities
B. Privacy Regulations and Passenger Rights
C. Regular Audits and Inspections
**VIII. User-Friendly Interface and Operator Training**
A. Touchscreen Control Panels
B. Training Programs for Security Personnel
C. Streamlined Passenger Experience
**IX. Privacy and Health Considerations**
A. Privacy Filters and Mode Options
B. Adherence to Strict Privacy Standards
C. Minimal Health Risks and Safety Measures
**X. Alarm Systems and Response Protocols**
A. Automated Threat Alerts
B. Coordinated Response with Security Personnel
C. Integration with Emergency Services
**XI. Case Studies and Success Stories**
A. Implementation in Major Airports
B. Impact on Threat Detection and Security Efficiency
C. Passenger Feedback and Public Perception
**XII. Challenges and Continuous Improvement**
A. Addressing Privacy Concerns
B. False Positives and Negatives
C. Collaboration with Experts for Continuous Enhancements
**XIII. Future Trends**
A. Integration with Biometric Systems
B. Smart Security Ecosystems
C. Sustainable and Energy-Efficient Technologies
**XIV. Global Implementation and Varied Applications**
A. Beyond Airports: High-Security Installations
B. Customs and Border Protection
C. Applications in Mass Transit Systems
**XV. Conclusion**
A. Elevating Airport Security Standards
B. Achievements and Ongoing Technological Advancements
C. Commitment to Global Aviation Security and Passenger Well-being
Radiation and airport security scanning radiation facts. Airport security systems employ metal detectors as well as backscatter and millimeter wave scanners. The device is protected against radiation from high levels. Non-ionizing radiation can be used to scan travelers, for example, metal detectors. This is done to make sure they aren't carrying concealed items. Airports can use different types and styles of screening equipment in order to protect travelers. Airport security scanning equipment is used for checking carry-on bags and checked luggage. Some equipment that is used in screening can emit low-levels radiation. This page is dedicated to information about radiation, airport security scanning, and other related topics. It's a huge job keeping public places safe like airports. Transportation Security Administration (TSA), at airports, screeners inspect passengers and personal effects for dangerous items such weapons, chemicals or liquids that aren't allowed as carry-on. They use screening equipment like metal detectors. These devices can also detect hidden items. Every type of screening equipment in airports today has a different purpose.
"Advancing Airport Security: X-ray Body Scanner Checkpoint Endpoint Systems"
**I. Introduction**
A. Significance of Airport Security
B. Evolution of Body Scanner Checkpoint Endpoint Systems
C. Objectives of Heightened Security Measures
**II. Principles of X-ray Body Scanner Systems**
A. X-ray Imaging Technology
B. Key Components
1. X-ray Generator
2. Detector Array
3. Image Processing Unit
4. Automated Threat Recognition Software
**III. Features and Capabilities**
A. Whole-Body Imaging
B. Material Discrimination
C. Privacy Filters
D. Real-time Image Analysis
**IV. Integration with Security Protocols**
A. Seamless Checkpoint Operations
B. Synergy with Walk-Through Metal Detectors
C. Coordination with Baggage Screening Systems
**V. Advanced Technologies in Body Scanning**
A. Millimeter-Wave Imaging
B. Artificial Intelligence for Threat Detection
C. Automated Anomaly Recognition
**VI. Customization for Airport Security Environments**
A. High-Traffic Checkpoints
B. Coordinated Passenger Flow Management
C. Integration with Access Control and Biometric Systems
**VII. Regulatory Compliance and Standards**
A. Compliance with Aviation Authorities
B. Privacy Regulations and Passenger Rights
C. Regular Audits and Inspections
**VIII. User-Friendly Interface and Operator Training**
A. Touchscreen Control Panels
B. Training Programs for Security Personnel
C. Streamlined Passenger Experience
**IX. Privacy and Health Considerations**
A. Privacy Filters and Mode Options
B. Adherence to Strict Privacy Standards
C. Minimal Health Risks and Safety Measures
**X. Alarm Systems and Response Protocols**
A. Automated Threat Alerts
B. Coordinated Response with Security Personnel
C. Integration with Emergency Services
**XI. Case Studies and Success Stories**
A. Implementation in Major Airports
B. Impact on Threat Detection and Security Efficiency
C. Passenger Feedback and Public Perception
**XII. Challenges and Continuous Improvement**
A. Addressing Privacy Concerns
B. False Positives and Negatives
C. Collaboration with Experts for Continuous Enhancements
**XIII. Future Trends**
A. Integration with Biometric Systems
B. Smart Security Ecosystems
C. Sustainable and Energy-Efficient Technologies
**XIV. Global Implementation and Varied Applications**
A. Beyond Airports: High-Security Installations
B. Customs and Border Protection
C. Applications in Mass Transit Systems
**XV. Conclusion**
A. Elevating Airport Security Standards
B. Achievements and Ongoing Technological Advancements
C. Commitment to Global Aviation Security and Passenger Well-being
Radiation and airport security scanning radiation facts. Airport security systems employ metal detectors as well as backscatter and millimeter wave scanners. The device is protected against radiation from high levels. Non-ionizing radiation can be used to scan travelers, for example, metal detectors. This is done to make sure they aren't carrying concealed items. Airports can use different types and styles of screening equipment in order to protect travelers. Airport security scanning equipment is used for checking carry-on bags and checked luggage. Some equipment that is used in screening can emit low-levels radiation. This page is dedicated to information about radiation, airport security scanning, and other related topics. It's a huge job keeping public places safe like airports. Transportation Security Administration (TSA), at airports, screeners inspect passengers and personal effects for dangerous items such weapons, chemicals or liquids that aren't allowed as carry-on. They use screening equipment like metal detectors. These devices can also detect hidden items. Every type of screening equipment in airports today has a different purpose.
Tunnel Size: | 500(W)×300(H)mm | ||||||||
Conveyor Speed: | 0.22 m/s | ||||||||
Conveyor Max Load: | 120 kg | ||||||||
Single inspection dosage: | < 1.5µGy | ||||||||
Wire Resolution: | 0.1mm metal line | ||||||||
Steel Penetration: | 8MM armor plate | ||||||||
Film Safety: | For ISO 1600 | ||||||||
Maximum leakage radiation: | <0.3µGY/H | ||||||||
X-RAY GENERATOR:
Orientation: | Vertically Upward |
Tube Current: | 0.4~0.5MA(adjustable) |
Anode Voltage: | 80 KV(adjustable) |
Angle: | 60° |
| Generator cooling/working periods | Sealed oil bath with forced air/100% |
OPERATING ENVIRONMENT:
Storage Temperature: | -20ºC to 60ºC |
Operating Temperature: | 0ºC to 45ºC |
Relative Humidity: | 20 to 95% non-condensing |
System Power: | 220 VAC (±10%) 50±3HZ |
Power wastage: | 1.0 KW (Max) |
Noise: | <65D |
