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Categories | POE Injector |
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Brand Name: | SONBORN |
Model Number: | SN-PSE302GB9 |
Certification: | CE FCC ROHS |
Place of Origin: | CHINA |
MOQ: | 1PC |
Price: | USD1.00/PC~USD50.00/PC |
Payment Terms: | T/T |
Supply Ability: | 5000PCS |
Delivery Time: | 5~8 Workdays |
Packaging Details: | Cartons |
Power: | 90W |
Pin Assignment and Polarity: | 1/2 (+), 3/6 (-);4/5 (+), 7/8 (-) |
Output Power Voltage: | 54~56VDC |
Standards Compliance: | 802.3af/IEEE 802.3at/IEEE 802.3bt |
Rate: | 10/100/1000Mbps |
Weight: | 350g |
Company Info. |
Sonborn Technology Co., Ltd |
View Contact Details |
Product List |
BT 90W Active PoE Injector IEEE802.3af/at/bt Single POE Gigabit ports POE for wireless AP camera
Product Description
Gigabit POE Injector POE++ 90W with one Ethernet Input (data only) port and one Output (data + power) port that is designed for small or medium network environments. The SN-PSE302GB9 supplies remote power for new applications such as wireless access points, pan-tilt-zoom (PTZ) IP cameras and videophones. It complies with IEEE 802.3bt PoE standard. It can work with 10/100Base-T networking devices and emerging 1000Base-T devices such as Wi-MAX and wireless IEEE 802.11n access points. By adding a PoE Splitter to existing non-PoE networking equipment, installing networking products such as Access Points and IP cameras can easily be performed. Wireless device deployments are easily located without the need for power outlets and network administrators don’t need to use AC power adapters anymore. For all the function featured in SN-PSE302GB9, people can get the benefit of flexible network installation at lower cost, less downtime.
Specifications
Technical Specifications Standards Compliance | Dimensions (L x W x H) / Weight 39*62.7*145mm |
IEEE 802.3 10Base-T Ethernet | 500g |
IEEE 802.3u 100Base-Tx Fast Ethernet | Indicators |
IEEE 802.3af/at/bt Power over Ethernet | AC Power (Green) |
Connector: RJ-45 10/100/1000 Mbps | PoE (Orange) |
PoE Power Output | Environmental Conditions |
Pin Assignment and Polarity: | Operating Temperature: -20 ~55°C |
Data+Power Pairs 1/2 (+), 3/6 (-);4/5 (+), 7/8 (-) | Storage Temperature: -25 ~ 70°C |
Output Power Voltage: 54-56 VDC | Storage Humidity: |
Power: Mode-A+Mode-B 90 Watts Max. | Maximum 95%, Non-condensing |
Input Power AC Input Voltage: 100~240VAC | |
Requirements AC Input Current: ≤1.5A @ 100~240 VAC |
Features
- Up to 90W of Power on IEEE802.3BT
- Safe on Low Power Devices Receive Only the Power They Need
- Safe and Reliable Power to WLAN Access Points
- Automatic Detection and Protection of Non–standard Ethernet Terminals
- Supports 10/100/1000Base-T LAN environment
- Unique interlocking feature for easy installation
Multiple Applications
Compliant with IEEE 802.3 af/at/bt PoE standard, it can deliver up to 90W power, with 100 meters distance, which is perfect for IP cameras or access point deployment.
PoE Applications Explained
PoE Standards
The original PoE standard, known as IEEE 802.3af, allowed 15.4 watts of power to be sent from a switch port. After cable resistance losses, each PD was guaranteed to receive at least 12.95 watts.In 2009, the IEEE 802.3at standard (also known as PoE+) was released, doubling the power per port to 30 watts. More recently, the new IEEE 802.3bt standard (PoE++) was formalized, allowing a massive 90 watts of power.
PoE Standard | 802.3af (Type 1, “PoE”) | 802.3at (Type 2, “PoE+”) | 802.3bt (Type 3, “4PPoE++”) | 802.3bt (Type 4, “4PPoE++”) |
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Twisted pair cables used | 2 pair | 4 pair | 4 pair | 4 pair |
Power accessible to PD | 12.95 Watts | 25.5 Watts | 51 Watts | 71 Watts |
PoE source Max. power delivered | 15.40 Watts | 30.0 Watts | 60 Watts | 90 Watts |
PoE source Min. input voltage | 44V-57 Volts | 50V-57 Volts | 50V-57 Volts | 52V-57 Volts |
Maximum current | 350 mA | 600 mA | 600 mA per pair | 960 mA per pair |
The Advantages of PoE Technology
Power over Ethernet (PoE) technology uses network cables to transmit data and power to devices. This means that a single cable can fully support devices such as wireless access points, VoIP phones, IP cameras and IP TV decoders.PoE eliminates the need for power cables and reduces cabling costs.The benefits of PoE include.
Transmitting power and data over cables makes it much cheaper to install a PoE system compared to traditional wiring.PoE also allows for easier and cheaper outdoor installation.
PoE has fewer installation steps and fewer electrical hazards.PoE also reduces the risk of power outages, potential damage to equipment, and electrical overloads.
PoE power supplies and devices are plug-and-play and highly configurable. This makes it easy to add or remove devices without interrupting or disrupting the entire system.
PoE-controlled devices can be disconnected and reconnected to a new PoE system with minimal downtime.PoE systems provide better control for smart buildings and ip-based security systems.
PoE networks can be easily expanded when more devices need to be added in new locations.
What is the difference between IEEE 802.3 af and IEEE 802.3 at?
The difference is the amount of power that can be delivered. IEEE 802.3af supports 15.4 watts over Ethernet cables. IEEE 802.3at can deliver up to 30 watts over Ethernet cables.
How does Power over Ethernet work?
In PoE, Ethernet cables are used to transmit power to the device, and PoE devices require no additional wiring during installation. Initially, PoE was primarily used for Voice over Internet Protocol (VoIP) telephony, which allowed existing IP networks to carry voice data. As PoE became more popular, security cameras became one of the most abundant PoE devices on the market. Later, as wireless connectivity became ubiquitous, wireless access points entered the PoE world.
Does PoE need special Ethernet cable?
No. PoE uses standard Cat 5 Ethernet cables to deliver both power and data.
Do I need PoE or PoE+?
This depends entirely on the type and nature of the PoE device you want to use. The original PoE standard (IEEE 802.3af) allowed 15.4 watts to be sent from a switch port. Taking into account cable resistance, each device was guaranteed to receive at least 12.95 watts. The updated IEEE 802.3at standard (also known as PoE+) doubles the power per port to 30 watts.
Newly powered devices are taking advantage of this advancement and require more power than ever before. Even if your current devices only require the standard power of 802.3af, you should consider the types and requirements of devices you will add in the future.802. This may be a viable path to take!