ZiBo Shunv Optoelectronic Equipment Co., Ltd.

High Power EDFA with RF

High-power 1550nm Fiber Amplifier Manual  With Optical Transmitter  (RF All channel Input)

High Power EDFA with RF

Foreword

This manual applies to Fiber Amplifier. It mainly describes the performance characteristics, technical parameters, installation and debugging, common troubleshooting, and other related content of the product. In order to ensure that the equipment can be successfully installed and safely operated, please read this manual carefully before installing and debugging the equipment. And the installation and debugging should be strictly according to the specified steps on the manual to avoid unnecessary damage to equipment or accident harm to the operator. Any questions, please contact with us in time. 
Special Tips:
■ Er Yb Codoped Fiber Amplifier is high end professional equipment, and its installation and debugging must be operated by special technician. Read this manual carefully before operating to avoid damage to equipment caused by fault operation or accident harm to the operator. 
■ While the fiber amplifier is working, there is an invisible laser beam from the optical output adapter on the front panel. Avoiding permanent harm to the body and eye, the optical output should not aim at the human body and human should not look directly at the optical output with the naked eye! 
■ Please make sure that the ground terminal of the case and power outlet has been reliably grounding before turning on the power (Grounding resistance should be <4Ω) to prevent the static damage the pump laser device and harm to human because of case charged.
■ To ensure the equipment can work stable over a long time, in voltage unsteady or poor voltage wave region, it´s recommend to the customer that he equips special AC regulated power supply, or even AC uninterrupted power supply (UPS) system for conditional users. In the region with large temperature variation environment (The equipment's ideal work environment temperature is 25°C) or bad room environment, it´s recommend to the customer that he equips special air-condition system to improve the work environment.
■ 1. Application 
n Single-mode fiber 1550 amplification network
n FTTH network
n CATV network

2. Performance Characteristics

n Adopts Er Yb Codoped double-clad fiber technology;
n Output ports: 4-64 optional;
n Optical output power: total output up to 10W;
n Low noise figure: <5dB when input is 0dBm;
n Perfect network management interface, in line with standard SNMP network management;
n Intelligent temperature control system make the power consumption lower;

3. Block diagram 
   

4. Technique Parameter 

4.1 Technique Parameter

Item Unit Technique parameters Remark
Operating bandwidth nm 1530 - 1560  
Optical input power range dBm -3 - +10  
Maximum optical output power dBm 39  
Output power stability dBm ±0.5  
Noise figure dB ≤ 5.0 Optical input power 0dBm, λ=1550nm
Return loss Input dB ≥ 45  
Output dB ≥ 45  
Optical Connector Type   SC/APC  
C/N dB ≥ 50 Test condition according to
GT/T 184-2002.
C/CTB dB ≥ 63
C/CSO dB ≥ 63
Power supply voltage V A: AC160V - 250V (50 Hz)
B: DC48V
 
Operating temperature range °C -10 - +42  
Maximum operating relative humidity % Max 95% no condensation  
Storage temperature range °C -30 - +70  
Maximum storage relative humidity % Max 95% no condensation  
Dimension mm 483(L)×460(W)×44(H)  
 


4.2 Model and Power Comparison Table

Model Total output power dBm Output ports number Output power per port dBm
EYA-4 -18 25 4 18
EYA-4 -19 26 4 19
EYA-4 -20 27 4 20
EYA-4 -21 28 4 21
EYA-4 -22 29 4 22
EYA-4 -23 30 4 23
EYA-4 -24 31 4 24
EYA-8 -15 25 8 15
EYA-8 -16 26 8 16
EYA-8 -17 27 8 17
EYA-8 -18 28 8 18
EYA-8 -19 29 8 19
EYA-8 -20 30 8 20
EYA-8 -21 31 8 21
EYA-8 -22 32 8 22
EYA-8 -23 34 8 23
EYA-16 -15 29 16 15
EYA-16 -16 30 16 16
EYA-16 -17 31 16 17
EYA-16 -18 32 16 18
EYA-16 -19 33 16 19
EYA-16 -20 34 16 20
EYA-16 -21 35 16 21
EYA-16 -22 36 16 22
EYA-32 -15 32 32 15
EYA-32 -16 33 32 16
EYA-32 -17 34 32 17
EYA-32 -18 35 32 18
EYA-32 -19 36 32 19
EYA-32 -20 37 32 20
EYA-32 -21 38 32 21
EYA-32 -22 39 32 22
 

Remarks::Double power with SNMP webmaster.


4.3 ST-2G600 MODULE

4.3.1 Product Description

    ST-2G600-DFB satellite optical transmitter adopts high linearity cooling DFB laser, direct modulated. Realize the simultaneous transmission of 47-862MHz CATV signal and 960~2600MHz satellite direct TV signal in one optical fiber.
    ST-2G600-DFB satellite optical transmitter can use ITU standard wave length and DWDM to realize network upgrade and expansion. Its optical power can be amplified by EDFA and YEDFA, achieve large area FTTH. It can be compatible with FTTxPON technology to realize FTTH and the multi-network integration of CATV (Analog and Digital TV), Satellite Television (DVB-S) and Internet.
ST-2G600-DFB adopts 1U 19” standard rack, microprocessor controls the working parameters, front panel LCD provides status display and fault diagnosis. Standard RJ45 communication interface, with SNMP network management function. Built-in perfect laser APC and ATC control circuit to ensure the long working life and high reliable work of the laser.
SAT-IF adopts high linearity IF driving amplifier circuit with AGC function to ensure the high quality transmission of Analog TV, Digital TV (DVB-C, DVB-T) and Satellite TV in one optical fiber.

4.3.3 Product Applications

• One optical fiber transmit CATV and SLDTV
• FTTxPON (EPON, GPON)
 
4.3.4 Technique Parameters
Performance Index Unit Remark
Optical Characteristics
Laser Type DFB   Specified by the user
Optical Wavelength 1310, 1550 or specified by the user nm Specified by the user
Output Optical Power 2, 4, 6, 8, 10 mW Specified by the user
Output Return Loss 50 dB  
Optical Connector Type SC/APC or FC/APC   Specified by the user
CATV RF Characteristics
Working Bandwidth 45-862 MHz  
RF Input Range 78~88 dBµV Optimum Input level:82~87
Flatness ±1 dB  
Input Return Loss 14 dB  
C/N ≥51 dB 42CH CENELEC 80dBµV AGC OMI=3.8%
C/CTB ≥63 dB
C/CSO ≥58 dB
Input Impedance 75 Ω  
RF Connector F type  Male/Female   Specified by the user
 
 
 
 
SAT-IF Characteristics
Working Bandwidth 950~2600 MHz  
Input Range 68~83 dBµV Input level
Flatness ±1 dB  
Input Return Loss 10 dB  
C/IM3 ≥55   Note1
General Characteristics
Power Supply (AC) 110~265 V Optional dual power
Consumption 20 mW  
SNMP network management interface RJ45    
Working Temperature 0~50 °C  
Storage Temperature -40~60 °C  
Dimension (W)*(D)*(H) 1U 19 inch
483*395*44
mm  
Note1: C/IM3 is defined as the ratio between the peak of carrier signal and triple beat (IM3) by using a two-tone test (1.0GHz and 1.1GHz).
 

5. External Function Description

5.1 Front Panel Description

 
Schematic diagram of the front panel
 
1) Power indicator: One switching power supply is working – yellow; two switching power supplies are working – green. 
2) Optical input power indicator:This light turns on when the optical input power is > -10dBm. 
3) Pump working status indicator: Red light means the pump is not working, but the machine parameters are normal; flashing red light means the machine has broken down, related fault reason see the alarm menu of the display menu; green light means the pump is working normal. 
4) Optical output power indicator: This light turns on when the optical output power is > +10dBm.
5) 160×32 dot-matrix LCD screen: used to display all the parameters of the machine.
6) Display the exit or cancel key of the setup menu.
7) Display the up or increase key of the setup menu.
8) Display the down or decrease key of the setup menu.
9) Display the enter key of the setup menu.
10) Optical signal output: This interface is the optical signal output port of the device. The default connector type is SC/APC; the port number is 4-32 optional. Other specification requirements are specified by the customer.
Warning: There is an invisible laser beam from this port while working normal. So the port should not be aligned to the human body or the naked eye to avoid accidental injury.
11) Optical signal input: The default connector type is SC/APC. Other specification requirements are specified by the customer.
12) 1550nm Transmitter Output: The default connector type is SC/APC. Other specification requirements are specified by the customer.
13) 1550nm Transmitter RF IN: 78~88dBuV(Suggest:82~85dBuV)
14) 1550nm Transmitter 12VDC input.
15) Pump laser switching key: used to control the working status of pump laser. “ON” means the pump laser is open and “OFF” means the pump laser is closed. Ensure the key is on “OFF” position before power on. After passing self-test, rotate the key to “ON” position according to the displayed message.
29)RF signal input port.
30)Voltage output switch.
31)+18V indicator.
32)+12V indicator.

5.2 Rear Panel Description 

Schematic diagram of the rear panel
1) Fan outlet.
2) RS232 interface: Used for configuring the network management parameters.
3) LAN interface: correspond to IEEE802.3 10Base-T, used for network management.
4) The AC 220V input port of power supply 1.
5) The fuse of power supply 1.
6) The switch of power supply 1. 
7) The AC 220V input port of power supply 2.
8) The fuse of power supply 2. 
9) The switch of power supply 2. 
10) Ground stud of the chassis: used for the connection of device and ground wire.

5.2.1 DC Power Module Introduction


1 Mounting screws 2 + Positive terminal block 3 - Negative terminal block
 


6. Menu System 

6.1 Main Menu

 
Name Display Description
System Starting xxxxxxx Manufacturers’ logo
xxxxxxx Equipment model
xxxxxxx Start countdown / lock status
Suspend Page In: xx.x  out: xx.x
            Unit: dBm
Display the optical input / output power
Main Page 1.Disp Parameters Entry of parameter display menu
2.Set Parameters Entry of parameter setup menu
3.Alarm Status Entry of alarm information menu

6.2 Display Menu

1.Disp Parameters Input Power: xx.x dBm Input power, accurate to 0.1 dBm
Output Power: xx.x dBm Output power,accurate to 0.1 dBm
Pump1 Power: xx.x dBm Power of pump1, accurate to 0.1 dBm
Pump1 Bias: x.x A Bias current of pump1, accurate to 0.1 A
Pump1 Temper: xx.x°C Temperature of pump1, accurate to 0.1°C
Pump1 Cooling: x.xx A Cooling current of pump1, accurate to 0.01 A
Pump2 Vol: x.x V Drive voltage of pump2, accurate to 0.1 V
Pump2 Bias: x.x A Bias current of pump2, accurate to 0.1 A
* Pump2 Temper: xx.x ℃ Temperature of pump2, accurate to 0.1 °C
* Pump2 Tec Vol: x.x V Cooling voltage of pump2, accurate to 0.1 V
* Pump2 Cooling: x.xx A Cooling current of pump2, accurate to 0.01 A
* TEC Vol: x.x V The first stage voltage of pump2 cooler, 0.1 V
+5V Read: x.x V +5V power supply voltage , accurate to 0.1 V
-5V Read: -x.x V -5V power supply voltage , accurate to 0.1 V
Box Temper: xx.x °C Box temperature, accurate to 0.1 °C
S/N: xxxxxxxx Device serial number
IP Address: xxx.xxx.xxx.xxx IP address
Subnet Mask:xxx.xxx.xxx.xxx Subnet mask
Net Gateway:xxx.xxx.xxx.xxx Gateway
Mac: xxxxxxxxxxxx Physical address
Trap1: xxx.xxx.xxx.xxx trap1 address
Trap2: xxx.xxx.xxx.xxx trap2 address
Software Version: Vx.xx.x.x Firmware version number
The ultra high power output EDFA no the “*” menu.

6.3 Setup Menu


2.Set Parameters Set Low Input Threshold Set the low optical input power alarm threshold, range -3.0~10.0dBm
Set High Input Threshold Set the high optical input power alarm threshold , range -3.0~10.0dBm
*Set Output ATT Set the optical output power attenuation
Set Local IP Addr Set IP address
Set Subnet Mask Set subnet mask
Set Gateway Set gateway
Set Trap1 Address Set trap1
Set Trap2 Address Set trap2
Set Buzzer cfg Set the switch of beeper
Restore Factory config Restore the factory configuration,set content as shown above
The ultra high power output EDFA no the “*” menu.


6.4 Warning menu

3.Alarm Status
 
Input Status: xxx xxx= LOLOW: Very low optical input power alarm
xxx= LOW: Low optical input power alarm
xxx= HIGH: High optical input power alarm
xxx= HIHIGH: Very high optical input power alarm
Output Status: xxx xxx= LOLOW: Very low optical output power alarm
xxx= LOW: Low optical output power alarm
xxx= HIGH: High optical output power alarm
xxx= HIHIGH: Very high optical output power alarm
Pumpx Power: xxx xxx= LOLOW: Very low power of pump x alarm
xxx= LOW: Low power of pump x alarm
xxx= HIGH: High power of pump x alarm
xxx= HIHIGH: Very high power of pump x alarm
Pumpx Bias: xxx xxx= LOLOW: Very low bias current of pump x alarm
xxx= LOW: Low bias current of pump x alarm
xxx= HIGH: High bias current of pump x alarm
xxx= HIHIGH: Very high bias current of pump x alarm
Pumpx Temper: xxx xxx= LOLOW: Very low temperature of pump x alarm
xxx= LOW: Low temperature of pump x alarm
xxx= HIGH: High temperature of pump x alarm
xxx= HIHIGH: Very high temperature of pump x alarm
Pumpx Tec: xxx xxx= LOLOW: Very low cooling current of pump x alarm
xxx= LOW: Low cooling current of pump x alarm
xxx= HIGH: High cooling current of pump x alarm
xxx= HIHIGH: Very high cooling current of pump x alarm
+5V Status: xxx xxx= LOLOW: Very low +5V DC power supply alarm
xxx= LOW: Low +5V DC power supply alarm
xxx= HIGH: High +5V DC power supply alarm
xxx= HIHIGH: Very high +5V DC power supply alarm
-5V Status: xxx xxx= LOLOW: Very low -5V DC power supply alarm
xxx= LOW: Low -5V DC power supply alarm
xxx= HIGH: High -5V DC power supply alarm
xxx= HIHIGH: Very high -5V DC power supply alarm
Device Temper: xxx xxx= LOLOW: Very low chassis temperature alarm
xxx= LOW: Low chassis temperature alarm
xxx= HIGH: High chassis temperature alarm
xxx= HIHIGH: Very high chassis temperature alarm
 
 

7. Communication Setup Description

7.1 Communication Interface Description 

1) RS232 communication interface
Adopt DB9 standard connector, the pin definitions as follow:
The serial communication uses the standard NRZ form, 1 starts bit, 8 data bits, 1 stop bit and the baud rate is 38400.
2) LAN communication interface
Adopt RJ45 standard connector, the pin definitions as follow: 
7.2 The management and application of network interface
一、 The transportation feature of category II:
1 Data communication of category II transponder telemetry depends on IP network,it is widely used in LAN, MAN, INTNET,support WLAN、VPN and route。
2 Category II transponder telemetry will be needed set the only IP, mask and GW  by manual when operating, we do not suggest adopting DHCP
二、 Calibrate
Debugging should be done in the equipment scence.
1 Conditions for debugging:
1.1 Optical equipment and transponder telemetry are powered.
1.2 Fluently IP network for category II transponder telemetry. 
1.3 IP resources for category II transponder telemetry have been divided and set up completely.
2 The tools and files for calibrate:
Notebook PC, administrator software(stand-alone version), IP Detect, records for operating and calibrate.
3 Calibrate:
3.1 Set up PC IP same with transponder telemetry. The IP for transponder telemetry is 192.168.0.122, the PC can be set 192.168.0.2.
3.2 Take off the internet cable of transponder telemetry, connect PC and transponder telemetry with own  internet cable, for the internet cable, we can use straight line or cross line. Note: For special PC, it can be only use cross line. 
4 Fault judgment:
Phenomenon Reasons
Parameters error 1、 Data wire can't be connected
2、 Fault for transponder telemetry
Transponder telemetry OFF-LINE 1) Fault for IP network
2) Fault for IP, mask and GW.
3) transponder telemetry crashed
4) ARP cache is not cleaned out completely.
Transponder telemetry can not be searched IP Detect The IP of PC and transponder telemetry are not in the same net work section.
Transponder telemetry I Pcan not be revised by IpDetect The IP of PC and transponder telemetry are not in the same net work section or the mask error
Working parameters can not be foundby adopting generally administrator Group(read)、Group(write)PUBLIC Uppercase and lowercase inconsistency

8. Installation debugging

8.1 Unpack and Check

1.  Insure the package is not defaced. If it has any damage or water mark, please contact local agency or carrier.
2.  After unpacking, check equipments and accessories according to package list. Any question, please contact local agency or our company.
3.  If you think the equipment has been damaged, please don't electrify to avoid worse damage. Please contact local agency or our company in time.

8.2 Instruments and tools

1.  An optical power meter;
2.  A digital multimeter;
3.  A standard optical fiber test jumper (SC/APC);
4.  Some absolute alcohol and medical cotton wool;

8.3 Installation steps

1. Before installing the equipment, please read the <User's manual> carefully and install the equipment according to the <User's manual>. Note: For the man-made damage and other all consequence caused by error installation that not according to the <User's manual>, we will not be responsible and will not supply free warranty.
2. Take out the device from the box; fix it to the rack and reliably grounding. (The grounding resistance must be < 4Ω).
3. Use the digital multimeter to check the supply voltage, make sure the supply voltage comply with the requirements and the switch key is on the “OFF” position. Then connect the power supply.
4. Input the optical signal according to the display message. Turn the switch key to the “ON” position and observe the front panel LED status. After the pump working status indicator turn into green, the device is working normal. Then press the menu button on the front panel to check the working parameters.
5. Connect the optical power meter to the optical signal output end by the standard optical fiber test jumper, then measure the optical output power. Affirm the measured optical output power and the displayed power are the same and have reached the nominal value. (Affirm the optical power meter is on 1550nm wavelength test position; the optical fiber test jumper is the matched one and on the connector surface has no pollution.) Remove the standard optical fiber test jumper and optical power meter; connect the device to the network. So far, the device has been completely installed and debugged.

9. Clean and maintenance method of the optical fiber active connector

In many times, we consider the decline of the optical power as the equipment faults, but actually it may be caused by that the optical fiber connector was polluted by dust or dirt. Inspect the fiber connector, component, or bulkhead with a fiberscope. If the connector is dirty, clean it with a cleaning technique following these steps:
1. Turn off the device power supply and carefully pull off the optical fiber connector from the adapter. 
2. Wash carefully with good quality lens wiping paper and medical absorbent alcohol cotton. If use the medical absorbent alcohol cotton, still need to wait 1~2 minutes after wash, let the connector surface dry in the air.
3. Cleaned optical connector should be connected to optical power meter to measure optical output power to affirm whether it has been cleaned up. 
4. When connect the cleaned optical connector back to adapter, should notice to make force appropriate to avoid china tube in the adapter crack.
5. If the optical output power is not normal after cleaning, should pull off the adapter and clean the other connector. If the optical power still low after cleaning, the adapter may be polluted, clean it. (Note: Be carefully when pull off the adapter to avoid hurting inside fiber.)
6. Use compressed air or degrease alcohol cotton to wash the adapter carefully. When use compressed air, the muzzle aims at china tube of the adapter, clean the china tube with compressed air. When use degrease alcohol cotton, insert directions need be consistent, otherwise can’t reach a good clean effect.
 
Special notice:
a. In the process of clean the active optical fiber connector, you should avoid direct shining at eye, which will cause permanence burn!!!!
b. Use proper energy to install the active optical connector, or the ceramic tape in the adaptor will lead to break. Once the ceramic tape is broken, the optical output power will decrease rapidly. And turn the active optical fiber connector slightly, the optical output power changes obviously.
c. Please operate the optical fiber under the condition of shut off the pump laser. Or the high output power will lead to burn the joint of the optical output fiber, which will cause the output power decrease.


10. After-sales Service Description 

1. If the equipment fault is resulted from the users’ improperly operation or unavoidable environment reasons, we will responsible maintenance but ask suitable material cost. 
2. When the equipment breaks down, immediately contact local distributor.
3. The site maintenance of the fault equipment must be operated by professional technicians to avoid worse damage.
Special notice: If the equipment has been maintained by users, we will not responsible free maintenance. We will ask suitable maintenance cost and material cost.

11. Disclaimer

We reserve the right to change any products described herein at any time, and without prior notice. We assume no responsibility or liability arising from the use of the products described herein, except as expressly agreed to in writing by us. The use and purchase of this product does not convey a license under any patent rights, copyrights, trademark rights, or any intellectual property rights of us. Nothing hereunder constitutes a representation or warranty that using any products in the manner described herein will not infringe any patents of third parties.