Difference between revisions of "SPE894x"
(Created page with "==Overview== thumb In the PoE scheme, two different types of devices are involved: '''Power Sourcing Equipment (PSE)''' and '''Powered Devices...") |
(No difference)
|
Revision as of 03:43, 22 October 2014
Contents
Overview
In the PoE scheme, two different types of devices are involved: Power Sourcing Equipment (PSE) and Powered Devices (PD). Compatible with IEEE 802.3af standard, SPE894x is a 4-port channel PSE module for PoE system. It can connect to 4 PD modules at the same time and pass the electric power to them.
SPE89x module supports PoE power management from class 0 to class 4, as well as End-point and Mid-span modes. The Built-in 5A surge TVS tube in PSE output port with the function of short circuit protection can efficiently reduce the damages from short circuit load and surge and provide a stable and safe PoE environment. Go shopping [SPE894x(IM141020001)]
Features
- Compatible with IEEE 802.3af standard
- Support 10M/100M/1000M PoE system
- Support End-point and Mid-span modes
- Maximum 600mA current output in each channel
- Support PoE electric power class from 0 to 4
- Under voltage protection, shorted load protection, over current *protection
- Built-in differential mode voltage 1.5kV, 5A peak current *protection in each channel
Application Notes
- IAD
- Multiband WAPs
- RFID system
- POS Terminal
- Industrial automation systems
- IP Phone terminal and iPBXs
- Surveillance System(NVR, IPC)
- Entrance Surveillance System
- 100M/1000M Ethernet gateway/switch/router
- WiMAX ASN/BTS and CPE/ODU system
Electronic Characteristics
Test condition | Min | Typical | Max | Unit | |
VEE_ABS | -62 | +0.3 | V | ||
VEE | IEEE 802.3af (15.4 W) | -57 | -48 | -45 | V |
VUVLO | VEE from positive to negative | −38 | −36 | V | |
---|---|---|---|---|---|
VEE from negative to positive | −33 | −31 | V | ||
IPORT | Class 0 | 0 | 5 | mA | |
Class 1 | 8 | 13 | |||
Class 2 | 16 | 21 | |||
Class 3 | 25 | 31 | |||
Class 4 | 35 | 45 | |||
Over Current | 51 | ||||
ICUT | Class 0 | 350 | mA | ||
Class 1 | 91 | ||||
Class 2 | 160 | ||||
Class 3 | 350 | ||||
Class 4 | 600 | ||||
RON | IPort≤720mA | 0.3 | 0.6 | ||
3.3V output | 3.15 | 3.3 | 3.45 | V | |
DC load | 50 | mA | |||
T_OP | 0 | 70 | |||
T_storage | -10 | 70 |
Hardware
Pin Map
Number | Name | Description | |
J1 | 1 | VEE | Input Power(-57~ -45V) |
---|---|---|---|
2 | VEE | Input Power(-57~ -45V) | |
3 | GND | ||
4 | GND | ||
5 | 3.3V | 3.3V output | |
6 | SDA | I2C data signal | |
7 | SCLK | I2C clock signal | |
8 | A0 | Chip Address 0 (1 - access to 3.3V, 0 - Ground ) | |
9 | A1 | Chip Address 1 (1 - access to 3.3V, 0 - Ground ) | |
10 | RESET | ||
J2 | 1 | VOUT2 | Class 2 PoE output |
2 | GND | ||
3 | VOUT3 | Class 3 PoE output | |
4 | GND | ||
5 | VOUT0 | Class 0 PoE output | |
6 | GND | ||
7 | VOUT1 | Class 1 PoE output | |
8 | GND | ||
9 | NC | ||
10 | NC |