Factory 100W 5.8G High-frequency Range Signal Amplifier Drone Jammer Module with 100% Test
100W 5.8G Broadband Signal Jammer Module Description
This broadband module is the key component of signal jammers, designed for easy integration. It usually emits powerful radio frequencies to disrupt drones' communication and navigation signals, forcing them to land safely or navigate back to their origin.
Features:
1. Frequency: 433/900 MHz 1.2/1.4/1.5/2.4/5.2/5.8G
2. Maximum jamming distance: 6000M
3. Wide bandwidth: Broadband modules usually have a wide frequency coverage range, can support multiple communication standards and frequency bands, and provide flexible usage scenarios.
*Customize 10W/20W/30W/50W/100W/200W/250W signal jammer modules. Please CONTACT us!
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Interface Definitions
FAQs
1. Do you support OEM/ODM orders?
Yes, we can customize the brand logo, power, and frequencies.
2. Shipment Date
| Quantity | Lead Time |
| <10 pcs | 7-10 days |
| 10-50 pcs | 15-20 days |
| >50 pcs | Negotiate |
*Click it to get the sample.
3. Delivery Date of the sample by DHL/FedEx/UPS
| USA/Australia/Canada/Europe/Asia | 7-10 days |
| Middle East/Latin American | 10-15 days |
| African | 7-15 days |
4. Payment Method
T/T, Western Union, and Credit Card are available. And we suggest paying by TT.
Please contact us for more payment methods.
5. Can signal jammer module be used on all types of drones?
While signal jammers can be effective against many types of drones, their effectiveness may vary depending on the drone's communication technology. Most consumer drones operate on specific frequencies like 2.4GHz or 5.8GHz, which a signal jammer can target. However, newer drones might utilize advanced frequency-hopping techniques or encryption, making them more resilient to jamming.
6. What are the applications of this drone signal jammer module?
This drone jammer module can be used in various applications, such as securing sensitive areas like government buildings, military bases, or private properties. Additionally, it can also be utilized at events where unauthorized drone footage or aerial surveillance is a concern, ensuring privacy and safety.
8. Are there alternatives to signal jammers for drone disruption?
Yes, there are several alternatives to signal jammers for disrupting drone operations. These include using drone detection systems, physically capturing the drone with nets, or engaging technologies like lasers. Each method has its pros and cons, and the choice depends on the specific situation and legal considerations.
9. What factors affect the range and effectiveness of a signal jammer?
The range and effectiveness of a signal jammer can be influenced by several factors, including the power output of the jammer, the frequency used, environmental conditions, and the type of drone being targeted. Obstacles such as buildings, trees, and other structures can also weaken the jamming signal.
10. Is it safe to use a signal jammer around people?
Using a signal jammer in populated areas poses risks because it can potentially disrupt communication signals for other devices - including emergency services. This can create dangerous situations. It is crucial to ensure that any use of a jammer is conducted safely and legally, ideally in controlled environments away from public areas.
| Item | Parameter |
| Type | 100W-RF-Module |
| Place of Origin | Guangdong, China |
| Brand Name | DescBoost |
| Supplier Type | OEM/ODM |
| Frequency Range | 2.4G:2400-2485 433M:428-438 1.5G:1560-1620 1.4G:1450-1550 1.2G:1150-1250 900M:840-928 5.8G:5725-5850 5.2G:5150-5350 |
| Output Impedance | 50 ohms |
| Spurious & Harmonic | No significant spurious or 2/3 harmonic signals outside the operating band |
| Output Power Stability | ≤1.5 dB |
| Sweep Signal Flatness | ≤1.5 dB |
| Output Power | ≥100W (50dBm) |
| Gain | ≥50dB |
| Supply Voltage | DC: 28V |
| Interface Mode | OUT-SMA |
| Output 50W Current | 8A-10.5A |
| Static Current | ≤1.5A |
| Interfaces | Power supply interface |
| CTRL transmission control interface | |
| power detection interface | |
| Power Detection Output Voltage | 5±0.5V |
| Scanning Frequency | ≥300K |
| Weight | 400g |
| Module Size | 202X57X18.5MM (Excluding protruding parts of joints) |
How to connect the RF module to the power source
- Plug in a 24V output wire to it
- Provide it with another 5V high-level voltage
- Having connected these two wires, proceed to install the antenna.Tighten the antenna
- In the process of operation, the wires must be connected
- Then supply it with both 24V and 5V simultaneously to generate power for transmission
Precautions
Please ensure the RF module is equipped with the necessary heat dissipation accessory the well-connected antenna and the suitable power supply before its use.