The EMCORE PONA 2100 Series Erbium Doped Fiber Amplifier (EDFA) is an
ideal building block for OEM system integrators. The family of PONA 2100 series
EDFA’s is designed to meet the most demanding noise performance requirements
of CATV applications, and performs all the functions required of an optical
amplifier for system integration. PONA 2100 series EDFA’s provide optical
isolation on the input and output of the gain block 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.
The PONA 2100 series EDFA’s also provide monitors and associated alarms for
all vital characteristics. The optical output of the PONA 2100 series EDFA’s can
be split into multiple ports by an optional external splitter.
Applications
High Performance Supertrunking Links
High Power Distribution Networks
Redundanct Ring Architectures
FTTx Networks.
Features
Full Functionality 1 RU EDFA
Low Noise Figure (Typ < 5.5 dB)
Total Input Power Range: -10 dBm to
+12 dBM
+14 dBm to +30 dBm Output Power
Optional Internal Optical Power Splitters
Standard RS-232 Communications
Standard SNMP Communication
(coming soon)
Key Lock Switch
Standard and Optional Gain Flatness
(1530 nm – 1562 nm)
VFD Panel Status Indicator
Low Electrical Power Consumption
Input/Output Isolation >40/40 dB
Polarization Dependant Gain < 0.1 dB
Polarization Mode Dispersion < 0.5 ps
General and Mechanical Specifications
Property
Operating Wavelength
Operating Case Temperature
Storage Temperature
Operating Humidity
Voltage Supply Range
Optical Connectors
Dimensions in Inches
Requirement
1532 ~ 1565 nm
1545 ~ 1565 nm
-10C to 55C
-40C to 85C
20% to 85%
100 VAC to 240 VAC 50/60 Hz
-36 to –60 V DC
SC/APC; SC/UPC; FC/APC;
FC/UPC; E2000/APC
19.0”W x 14.76”D x 1.72”H
Comments
PONA 2114 – PONA2127
PONA 2130
Standard
Standard
Non-condensing
Standard
Optional
User Specified
19” Rack Mounted, 1U
| REV 2012.01
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.
PONA 2100 Series
DATASHEET | JANUARY 2012
FIBER OPTICS
Optical/Electrical Characteristics
1
Property
Operating Input Power
Operating Input Power
Output Power
Noise Figure
Static Gain Flatness
Dynamic Gain Flatness
Output Power Stability
Power Consumption
(steady state regime)
Symbol
(Units)
Pin (dBm)
Pin (dBm)
Po (dBm)
NF (dB)
GF (dB)
(dB)
(dB)
Psys (W)
Limit
2114
Max
Min
+12
-10
14.0
+/-.25
Typ/Ma
x
Max
Max
Max
Max
4.5/5.0
+/-0.5
+/-1
+/- 0.2
5
PONA Models
2117
+12
-10
17.0
+/- .25
4.5/5.0
+/-0.5
+/-1.25
+/- 0.2
7
Comments
2124
+12
-10
24.0
+/- .25
2120
+12
-10
20.0
+/- .25
4.5/5.0
+/-0.5
+/-1.5
+/- 0.2
9
2122
+12
-10
22.0
+/- .25
4.5/5.0
+/-0.5
+/-2.0
+/- 0.2
12
2127
+12
-10
27.0
+/- .25
5.0/5.5
+/-0.5
+/-2.0
+/- 0.2
35
2130
+12
-10
30.0
+/- .25
5.5/6.0
(Note 7)
(Note 7)
+/- 0.2
40
Typical
(May vary for
some models)
(Note 2)
(Notes 3, 8)
(Note 4)
(Notes 5, 8)
(Note 6)
50 C Case
o
5.0/5.5
+/-0.5
+/-2.0
+/- 0.2
20
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 possible. (Low Noise Figure options with NF
≤
4.0/4.5 dB are available for some models)
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 ≤
+/-1.0dB are available (for some models)
6. Over polarization and temperature
7. Static and Dynamic Gain Flatness for PONA 2130 can be defined for 1545 nm
≤
≤
1562 nm and by special request only.
8. Specific NF and
ΔG
can be guaranteed at a single specified Input Optical Power Level (Pin = Pt + Pp) equal or different from 0 dBm.
(Please contact your Sales Representative for more information)
| REV 2012.01
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.
PONA 2100 Series
DATASHEET | JANUARY 2012
FIBER OPTICS
Outline Drawing
AC versions shown below with 8-port option
DC versions shown below with 8-port option
Compliance Information
89/336/EEC
73/23/EEC
EN 50083-2, (2001)
EN 55013
EN 61000-3-2
EN 55020
EN 61000-4-6
EN 61000-4-3
EN 61000-4-2
EN 61000-4-4
EN 60950
EN 60825-1
EN 60825-2
CDRH
Fit Rate:
Electromagnetic Compatibility Directive, amended by 92/31/EEC & 93/68/EEC
Low Voltage Directive, amended by 93/68/EEC
Cable networks for TV signals, sounds and interactive services, Part 2
Electromagnetic Compatibility for equipment.
Mains Conducted Emissions
Mains Frequency and its Harmonics, Conducted Emissions
Radiation from Active Equipment, Radiated Immunity
Immunity of Active Equipment, Radiated Immunity
Immunity of Active Equipment, Radiated Immunity
Electrostatic Discharge Immunity
Electrical Fast Transient / Burst Immunity
Low Voltage Directives
Laser Safety Requirement
Laser Safety Requirement
Laser Safety Requirement
90% level of confidence < 1700 @ 30C (PONA 2130)
| REV 2012.01
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.
PONA 2100 Series
DATASHEET | JANUARY 2012
FIBER OPTICS
Ordering Information
PONA 21
Optical Output
Power
14 -
14 dBm
17 -
17 dBm
20 -
20 dBm
22 -
22 dBm
24 -
24 dBm
27 -
27 dBm
30 -
30 dBm
-
-
Input Voltage
-
-
*
Connector
GFF/ NF Options
00 -
Standard
01 –
Gain Flattened Option
02
- Low NF Option
03
– Gain Flattened AND Low
NF Option
Output
Ports
1
2
4
8
16
AC
– 90-260V 50/60 Hz
DC
– 48 V
2DC –
Redundant 48 V
SC –
SC/APC (Default Option)
FC
- FC/APC (Default Option)
EC
- E2000/APC
TC
- SC/UPC
GC
- FC/UPC
Notes:
1.
For ordering PONA
preamplifiers
please contact your Sales Representative
2. Only some models can be order with Gain Flattened and/or Low NF options. (-01, -02, and –03 suffixes).
Please contact your
Emcore Sales Representative for details
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 = 1530 ~ 1561 nm (dependant on input source)
Maximum Output Power = 1.0 W (single output, 30 dBm model)
| REV 2012.01
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.
Abstract: In order to generate a stable excitation signal, the design of a digital frequency synthesizer is implemented on FPGA using Verilog hardware language. The design includes accumulator, wav...[Details]
This paper designs a dot matrix LED text display screen that is easy to update, expandable, and low-cost. The way to reduce costs is
① Use the Bluetooth data transmission function of mobile ph...[Details]
1. What is temperature?
Heat is a type of molecular motion. The hotter an object is, the faster its molecules move. Absolute zero is defined as the temperature at which all molecular motion ...[Details]
AD8205 is
a single-supply high-performance differential
amplifier
launched by
Analog
Devices of the United States
. The typical single-supply voltage is 5V, and its common-mode volta...[Details]
I. Introduction
Since RS232 has a short communication distance (only 15 meters according to EAT/TAI-232 standard), and can only perform point-to-point communication, it cannot directly f...[Details]
PV inverter manufacturer SMA has launched its first DC arc fault circuit interrupter (AFCI) PV inverter and has received UL certification.
The new SunnyBoy AFCI inverter models include 3000-US...[Details]
Digital array radar (DAR) uses digital beam forming (DBF) in both receiving and transmitting modes to achieve flexible distribution and reception of RF signal power in the airspace, obtain excellent t...[Details]
This controller uses PIC16C54 single-chip microcomputer as the controller, and it is very easy to use: just connect a telephone line to the loudspeaker through the controller, and you can rem...[Details]
TC9012F is a universal CMOS large-scale integrated circuit for infrared remote control signal transmission, suitable for remote control of TV, VTR, laser player and other equipment. In the market, ...[Details]
Spatial Division Multiplexing (SDM) MIMO processing can significantly improve spectrum efficiency and thus greatly increase the capacity of wireless communication systems. Spatial Division Multip...[Details]
LED light sources have many environmental advantages, but early products still have certain technical bottlenecks in heat dissipation and high brightness design that cannot be broken through....[Details]
At present, a large number of cooling tower fans, speed fans and special fans are in use in petroleum, chemical, pharmaceutical, metallurgical and other enterprises. Some fans have no monitoring in...[Details]
Fruit planting is an important part of China's agricultural development, and fruit tree pest control operations are becoming more and more important. At present, the overall level of pesticide applica...[Details]
Don’t just look at the power when choosing a power supply
We know that a power supply with a low rated power can hardly meet the power supply needs of the system, which may cause frequent free...[Details]
In the past 20 years, although the inverters that use power transistors (GTR) as inverter power devices, 8-bit microprocessors as control cores, and realize asynchronous motor speed regulation acco...[Details]
京公网安备 11010802033920号
EEWORLD
