3.7 V Nljd Detector With Audible And Visual Alarm Mode
Product Details:
Place of Origin: | China |
Brand Name: | HEWEI |
Certification: | YES |
Model Number: | 24 |
Payment & Shipping Terms:
Minimum Order Quantity: | 1 set |
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Price: | USD6500~9000 |
Packaging Details: | carton package,L28cm x W12.5cm x H6cm |
Delivery Time: | 15~30 days |
Payment Terms: | T/T |
Supply Ability: | 150 sets per month |
Detail Information |
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Operating Temperature: | +5℃ ~ +40℃ | Alarm Mode: | Audible And Visual (LED Indicator) |
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Battery Type: | Built-in Rechargeable Li-battery | Battery Life: | 3 Hours At Max Power In A Pulsed Mode |
Capacity: | 7.8 Ah | 2nd Harmonic Frequency: | 4812 - 4828 MHz |
The Adjustment Range Of The Probing Signal Power: | 20dBm | Maximum Continuous Radiation Power (CW): | 300W |
Receiver Sensitivity: | ≧ -108 DBm | Dynamic Range: | ≧ 80 DBm |
High Light: | 3.7 v nljd detector,visual alarm mode nljd detector,audible alarm mode nljd detector |
Product Description
Non-Linear Junction Detector
Model: HW-24
Introduction
The non-linear junction detector “HW-24” is used for search and location of electronic devices both in active and switch-off state.
It is highly competitive with most popular models of non-linear junction detectors. It can operate in continuous and pulse mode as well, having a variable power output. Automatic frequency selection allows operation in complex electromagnetic environment.
The detector generates a response at the 2nd and 3rd harmonics when radiated by an RF probing signal. Semiconductor components of artificial origin will display a higher level on the second harmonic while corrosive semiconductor components of artificial origin will have a higher level on the third harmonic respectively. An “HW-24” analyzes the 2nd and 3rd harmonics response of the radiated objects, which enables a quick and reliable identification of electronic devices and corrosive semiconductors.
The “HW-24” automatically finds the best receiving frequency channel free of noise and distortion providing flawless operation even in the complicated electromagnetic environment.
Its power output is harmless to operator’s health. Operation at higher frequencies makes it in some cases more efficient than detectors with standard frequencies but with greater power output.