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| Feature | Detail |
|---|---|
| Product Name | CT-AE |
| Model No | AE-1-30M |
| Frequency Range | Production on demand |
| Power Capacity | Production on demand |
| Impedance | Production on demand |
| Connection Type | N-type male connector |
| VSWR (Voltage Standing Wave Ratio) | Maximum 1.5:1 |
| Input/Output Loss | ±0.5 dB (typical) |
| Phase Response | ±5° (typical) |
| Operating Temperature | -55°C to +65°C |
| Storage Temperature | -60°C to +70°C |
| Humidity Resistance | 5% – 95% non-condensing |
| Dimensions | Production on demand |
| Weight | Production on demand |
| Material | Aluminum body |
| Application Areas | Wireless communication testing, RF signal simulation, Laboratory and field testing |
An antenna emulator is a device designed to simulate real-world antenna performance. Such a device is used to understand how antennas perform and how they transmit or receive radio frequency (RF) signals under various conditions. Antenna emulators are particularly important for pre-testing how antennas will perform in complex or difficult-to-control environments.
The applications of antenna emulators include:
Wireless Communication Testing: Testing the performance of antennas for wireless devices, cell phones, walkie-talkies, and other communication equipment.
RF Signal Simulation: Simulating how RF signals will propagate and be received in different environmental conditions (e.g., areas with high buildings, mountainous regions).
Product Development: Evaluating the performance of new antenna designs or wireless communication devices during their development.
Education and Research: Used in academic or industrial research to understand and teach antenna theories and applications.
Quality Control: Ensuring that wireless devices and systems meet quality and performance standards during the manufacturing process.
Signal Jamming and Protection Testing: Assessing the effectiveness of signal jamming and protection techniques in military or security applications.
Electromagnetic Compatibility Testing (EMC): Testing the resistance and compatibility of devices against electromagnetic interference (EMI).
These devices allow engineers and researchers to recreate real-world conditions in a laboratory environment, enabling more controllable and repeatable tests. This helps to better understand how products will perform before they are placed in real environments.