人妻被中出不敢呻吟A片视频,菊地凛子av,大尺度床吻戏大全,大唐明月小说

  • Lootom Telcovideo Network (Wuxi) Co.
  • WeChat

    關(guān)注路通官方微信

  • 中文

PRODUCT

MN 100 RF PON(RFoG) mini Optical Node

Lootom MN100 RF PON Transceiver offer the operators competitive advantage and enormous flexibility over the traditional HFC architectures ...

Current position:HOME > HFC

MN 100 RF PON(RFoG) mini Optical Node

Overview        Lootom MN100 RF PON Transceiver offer the operators competitive advantage and enormous flexibility over the traditional HFC architectures --- avail enough the existing RF and DOCSIS technology to deploy a fiber optic distribution network. Lootom MN100 operate over a standard Passive Optical Network(PON) ODN architectures using a standard HFC optical wavelength, connect to cable modems, televisions and set-top boxes through the existing coaxial cable, don’t need the neighboring HFC nodes and the annual testing and maintenance. Lootom MN100 allows PON, RFoG and mixed PON network to extend the bi-directional and interactive RF business through the passive optic distribution network, it could be used at the same optic cable which PON access to support the voice, video and data business. Lootom MN100 RF transceiver provides bi-directional services over extended RF frequencies (up to 1.1GHz) while being agnostic to head-end equipment, customer equipment, and compatible with today’s operating processes. Features         For FTTH
        Using the low noise pHEMT GaAs FET as the first RF amplify module, fit to low optic power input
        Support the universal HFC set-top box, cable modem and head-end equipment
        Transparent return path capability (protocol and modulation format are transparent)
        Optical AGC function ( reach the positive RF level)
        Reduce the convergence noise
        Local or remote power supply
        Die-casting aluminum housing, excellent heat dissipation performance
        It is compatible with DAVIC and DOCSIS Technical Specifications

No.

Item

Unit

Description

Remark

Physical

1

dimension

mm

31×128×78

H×W×D

Optic connector

5

optic connector

SC/APC

8

input wavelength

nm

15251565

9

input power range

dBm

-80

10

Loss of signal alarm threshold

dBm

<-8

11

bandwidth

MHz

54/878621000

12

flatness

dB

±0.75

at the worst condition

13

impedance

Ω

75

14

RF output level

dBmV

24±2

OMI=3.7, %, at -4dBm input power

15

RF return loss

dB

16

at the worst condition

16

RF output test point

-dB

20±0.75

17

CNR

dBc

48

-4dBm input power

18

CTB

dBc

70

-4dBm input power

19

CSO

dBc

65

-4dBm input power

return path parameter

20

bandwidth

MHz

1042/65

at the worst condition

21

Flatness 

± dB

0.75

22

impedance

Ω

75

23

RF return loss 

- dB

16

at the worst condition

24

RF input level

dBmV

20

25

RF input test point

-dB

20±0.75

26

laser

FP

27

output power

dBmW

0

standard

28

wavelength

nm

1310±50

Assignable 

Laser working mode

Normal mode or burst mode

29

laser operation

bust mode

30

RF input test point

-dB

20±0.75

31

RF input dynamic range

dBmV

1540

NPR dynamic range

FP/DFB

power and environment

35

operation temperature

- 25+65

36

operation humidity

5%~95

non-condensation

37

power input voltage

VDC

+12 +24

12VDC nominal

38

power consumption

W

4
39

surge protection

KV

6


 
建湖县| 河津市| 杂多县| 五家渠市| 山阳县| 庄浪县| 和硕县| 黑山县| 陵川县| 大竹县| 鹿泉市| 汉寿县|