MAFA 1000 Series Erbium Doped Fiber Micro Amplifier
EMCORE’s MAFA 1000 Series Erbium Doped Fiber micro Amplifier (μEDFA)
Gain Block Module is an ideal building block for OEM system integrators. The
family of MAFA 1000 EDFA Gain Blocks is designed to meet the most demanding
noise performance requirements of fiber optic communications and control
systems, and performs all the functions required of an optical amplifier for system
integration.
MAFA 1000 series EDFA Gain Blocks provide input and output optical isolation for
stable, low noise operation. The input and output optical signal power levels are
detected for monitoring and control. The input optical signal is amplified with
active gain control for a constant output power level or with active output power
control for constant gain mode operation.
The MAFA 1000 series EDFA Gain Blocks also provide monitors and associated
alarms for all critical operating parameters. The optical output of the MAFA 1000
series EDFA Gain Blocks can be split into multiple ports by optional external
splitter. Optional back reflection monitoring feature enables safe output optical
power managing.
The compact mechanical footprint of the MAFA 1000 allows using this unit to be
installed in small space environments.
Applications
CATV Systems
Long Distance RF/Microwave Fiber
Optic Communication Links
Sensing and Control Systems
High Performance Supertrunking Links
High Power Distribtuion Networks
Redundanct Ring Architectures
FTTx Networks
Features
Full Function Fiber Optic Amplifier
Ready for Integration
Low Noise Figure (Typ < 4.5 dB)
Pin: -6 dBm to +12 dBM
Pout: +14 dBm to +23 dBm
RS-232 Monitor and Control Interface
(SNMP V.1 is also possible)
Standard and Optional Gain Flatness
Low Electrical Power Consumption
Input/Output Isolation >40/40 dB
Polarization Dependant Gain < 0.1 dB
Polarization Mode Dispersion < 0.2 ps
Input & Output Return Losses < -40 dB
Output Residual Pump Power < -30 dBm
Back Reflection Monitoring
|
REV 2012.09
Information contained herein is deemed reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specification at any time without notice.
MAFA 1000 Series EDFA
DATASHEET | SEPTEMBER 2012
FIBER OPTICS
Optical/Electrical Characteristics
1
Property
Unit
Limit
1014
Operating Input Power
Operating Input Power
Output Power
Noise Figure
Static Gain Flatness
Dynamic Gain Flatness
Output Power Stability
Power Consumption
(Steady state)
Pin (dBm)
Pin (dBm)
Po(dBm)
NF (dB)
ΔGs
(dB)
ΔGd
(dB)
(dB)
Psys(W)
Max
Min
Nominal
Typ
Max
Max
Max
Max
12
-6
14
+/-.25
4.0 dB
+/-0.5
+/-1.0
+/- 0.1
2
Models
1017
12
-6
17
+/- .25
4.0 dB
+/-0.5
+/-1.25
+/- 0.1
3
Comments
1022
12
-6
22
+/- .25
4.0 dB
+/-0.5
+/-2.0
+/- 0.1
6
1020
12
-6
20
+/- .25
4.0 dB
+/-0.5
+/-1.5
+/- 0.1
5
1023
12
-6
23
+/- .25
4.0 dB
+/-0.5
+/-2.0
+/- 0.1
8
Typical
(May vary for some models)
Note 2
@ Pin = 0 dBm, no Pin monitoring
(Notes 3, 7, 8)
(Notes 4)
(Notes 5, 7)
(Note 6)
70 C Case
o
Notes:
1. Unless stated otherwise, all specifications apply over the full operating temperature and humidity ranges
0 dBm. Measuring with 1 input optical signal with Pin
≈
0 dBm and
≈
1550 nm is also available
4. Measured with a swept Probe Signal (Pp), where Pp
≈
0 dBm @ 25C
5. Measured with a swept Probe Signal (Pp), and a fixed Tone Signal (Pt) @ ~ 1550 nm; (Pt
≈
Pp+20 dB; Pt + Pp
≈
0 dBm)
@ 25C; Gain Flattened Options with
ΔG ≤
+/-0.75dB or
ΔG ≤
+/-1.0dB are available (for
some models and for defined
input optical power only)
6. Over polarization and temperature
7. Specific
ΔG
can be guaranteed at a single specified Input Optical Power Level (Pin = Pt + Pp) equal or different from 0
dBm
8. If input power monitoring and input isolation are required then typical NF (Typ) for all units @ Pin = 0 dBm as
4.5 dB
General and Mechanical Specifications
Property
Operating Wavelength
Operating Case Temperature
Storage Temperature
Operating Humidity
Voltage Supply Range
Optical Connectors
Dimensions (mm)
Requirement
1532nm ~ 1565nm
0C to 50C
-40C to 85C
20% to 85%
+12VDC/+5VDC/+3.3VDC
SC; FC; E2000
70 x 90 x 15
Comments
Standard
Standard*
Standard
Non-condensing
All versions**
User Specified
All versions
* - Extended temperature range of –40C to +75C is also possible
** Transient Pulse to +X.XVDC + 5% for < 100 msec
|
REV 2012.09
Information contained herein is deemed reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specification at any time without notice.
MAFA 1000 Series EDFA
DATASHEET | SEPTEMBER 2012
FIBER OPTICS
Outline Drawing (dimensions in mm)
Compliance and Reliability Information
FCC: Subpart B. Part 15 class “A”: Unintentional Radiators
EN 55013: Sound and Television Broadcast receivers and associated equipment – Radio disturbance characteristics- limits
and methods of measurements – Electric Field Radiation Emissions (2001)
Fit Rate: 90% level of confidence - 290 @ 25C
|
REV 2012.09
Information contained herein is deemed reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specification at any time without notice.
MAFA1014-SC-00-S-2: 14 dBm gain block with SC/APC optical connectors, standard NG/GF, standard temperature range,
+5VDC power supply
Note:
Only some models can be order with Gain Flattened options. (-01 suffixes).
Please contact your Sales Representative
for details
|
REV 2012.09
Information contained herein is deemed reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specification at any time without notice.
MAFA 1000 Series EDFA
DATASHEET | SEPTEMBER 2012
FIBER OPTICS
Laser Safety Information
This product meets the applicable requirements of 21 CFR 1010 & 1040 and is classified as a Class IV laser product based
on the maximum optical output power shown below. During use as intended, the laser energy is fully contained within the
fiber network such that there is no accessible laser radiation and would meet the requirements for a Class I laser product.
The laser product report has been submitted to the CDRH and the accession number is expected by October 2006.
Wavelength = 1535 ~ 1565 nm (dependant on input source)
Maximum Output Power = 0.2 W (single output, 23 dBm model)
|
REV 2012.09
Information contained herein is deemed reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specification at any time without notice.
I ported the BMP180 program from STM32, but the software IIC has not responded. I tried the hardware IIC_start function but it failed. Can anyone give me some ideas and examples? Tell me the pitfalls ...
During this period, we successfully developed the WinCE driver and video acquisition program for the Vimicro 301H camera. For details, please see http://blog.eeworld.net/wincemobile...
# Sound Detection System##Sound Detection System###The sound detection system is used to capture sound and display the time domain graph and spectrum graph of the sound. The interface of the detection...
I got up early, hoping for a good result and try to get it through. Since the project was only started last month, the trial was delayed a bit, but I have to thank Sister SOSO for her support, which e...
[i=s] This post was last edited by strong161 on 2017-6-9 22:00 [/i] [size=7][color=#ff0000]Limited to honest transactions [/color][/size][size=4] Selling a stm32 F0 discovery [color=#404040][font=Taho...
1. Several nouns
ABI:
The specifications that an executable file must follow in order to run in a specific execution environment;
Separately generated relocatabl...[Details]
Tesla and BYD, vying for dominance in the global electric vehicle market, are reportedly considering adopting Samsung's AMOLED (active-matrix organic light-emitting diode) technology for their next...[Details]
introduction
With the development of digital and network technologies, broadcasting technology has become increasingly diversified, with the most significant trend being the transition from an...[Details]
Whether it is an electric car or an ordinary fuel car, for the vast majority of car buyers, the final cost of use is what they care about most. For fuel cars, how to save fuel is what drivers care ...[Details]
A human-machine interface (HMI) refers to the platform used by people to operate a PLC. This platform provides an interface between programs and humans, serving as a medium for information transmis...[Details]
To improve the lateral active safety of intelligent connected vehicles, the identification and definition of unexpected functional safety scenarios for the EPS (Electronic Steering System) ...[Details]
With the support and encouragement of national policies, some Internet car manufacturers have also joined the new energy vehicle manufacturing industry. From the perspective of new car manufacturer...[Details]
Electric vehicles will revolutionize transportation, changing fuel consumption, carbon emissions, costs, maintenance, and driving habits. Currently, a major selling point for electric vehicles is t...[Details]
Tires are a very important component for cars. They are related to the driving experience of the vehicle. We are almost inseparable from cars in our daily lives. For tires, according to the role of...[Details]
introduction
With the development of society, people's requirements for the quality of refrigerated and frozen foods are constantly improving. The changes in food appearance and nutritional co...[Details]
Compiled from semiengineering
The industry is increasingly concerned about power consumption in AI, but there are no simple solutions. This requires a deep understanding of software and ...[Details]
introduction
In recent years, with the increasing number of high-rise buildings, the demand for elevators has also increased. Currently, the elevators we use most often use LED dot array displ...[Details]
As the power density of modern electronic systems continues to increase, effective thermal management has become critical to ensuring system performance, reliability, and longevity—especially in hi...[Details]
Introduction: Traditionally, lead-acid batteries have primarily been used to provide backup power and power regulation based on location. In typical applications, the battery's actual use (discharg...[Details]
Challenges come from multiple dimensions, and data centers on wheels require more rigorous testing.
Comparing the past, present, and future of automobiles, one clear trend emerges: cars ...[Details]
Domestic Chip Exchange
京公网安备 11010802033920号
EEWORLD
