Solar Powered Wifi Outdoor Router - Outdoor Solution (open to see applications)

Regular price
R 1,950.00
Sale price
R 1,950.00
Regular price
R 2,530.00
Sold out
Unit price
Quantity must be 1 or more

Description

· It is suitable to use in a place without a network, without a power supply, insert a mobile phone SIM card, just like a wireless router

· All terminal devices can connect to the router’s WIFI to surf the Internet

· Our solar panel wifi router comes with 4 lithium batteries

· The 4G WIFI router can connect kinds of ordinary network cable cameras (AHD camera with insert Cable, POE Camera, Wireless IP CAMERA ), You can also connect an ordinary WIFI IP camera to realize remote

· Power failure protection

· Wireless: Any place with a wireless signal for a cell phone can use wifi.

· Working frequency band: LTE B1/B3/B8/B38/B39/B40/B41

· WCDMA 2100/900MHz, TD-SCDMA B34/B39

· TD-SCDMA B34/B39

· GSM/GPRS/EDGE: 900/1800MHz

· FDD-LTE/TDD-LTE: Upstream 50M Down 150Mbps

· HSPA+: Upstream 5.76M Down 21Mbps

· TD-SCDMA: Upstream2.2Mbps Down 2.8Mbps

· 2pcs 5dbi Full frequency rod antenna(4G Main antenna, 4G Auxiliary antenna)

· Solar panel with built-in rechargeable battery for power supply

· Package Weight: 966g

· Package Dimension: 25cm x 15cm x 9cm

Package Includes

· 1 x Solar Panel

· 2 x Antenna

· 1 x Type C USB charger

· 1 x Bracket

· 1 x Pack Of Accessories

· 1 x Manual

TIPS

Load SIM card with affordable bulk data

Only Mobile network required

Router provides wifi for large groups, communities, rural, schools, etc.

APPLICATIONS

A solar-powered router can be used in various applications, including:

1. Remote area networks: Providing internet access in rural or hard-to-reach areas where traditional power sources are scarce.

2. Emergency response: Setting up temporary communication networks during natural disasters or crisis situations.

3. Outdoor events: Powering wireless networks for festivals, concerts, or sporting events.

4. IoT applications: Supporting IoT devices in remote locations, such as environmental monitoring or agricultural sensors.

5. Off-grid communities: Enabling internet access for communities without traditional power infrastructure.

6. Disaster relief: Providing critical communication infrastructure during humanitarian responses.

7. Environmental monitoring: Supporting sensor networks for tracking climate change, weather patterns, or wildlife conservation.

8. Rural connectivity: Bringing internet access to underserved rural areas, promoting digital inclusion.

9. Mobile networks: Powering cellular networks in remote regions or during outages.

10. Research stations: Supporting scientific research in remote, off-grid locations.

Solar-powered routers offer flexibility and reliability for connecting people and devices in diverse scenarios.

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