PONA 3000 Series DATASHEET | JANUARY 2012 FIBER OPTICS PONA 3000 Series Erbium Doped Fiber Amplifier Applications High Performance SuperTrunking Links High Power Distribution Networks Fiber Deep Architectures FTTx Networks Features Full Function High Power Fiber Optic Amplifier Low Noise Figure (Typ < 6 dB) Total Input Power Range: -10 dBm to +12 dBm The EMCORE PONA 3000 Series Fiber Optical Amplifier Module is an ideal building block for OEM system integrators. The family of PONA 3000 Optical Amplifiers is designed to meet the most demanding noise performance requirements of CATV and FTTx applications, and performs all the functions required of an optical amplifier for system integration. PONA 3000 series optical amplifiers 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 3000 series optical amplifiers also provide monitoring functions and associated alarms for all vital characteristics. The optical output of the PONA 3000 series optical amplifiers can be split into number of ports by an optional internal splitter. PONA3000 series includes AC/DC Power Supply, Front Panel, Optical Splitters, network card and all necessary connectors. Total Ouput Power: +27 dBm to +37 dBm (Optical Ouput Power Splitter is Optional General and Mechanical Specifications for these Units) General Property Requirement Comments Standard RS-232 communications Operating Wavelength 1545 ~ 1565nm Standard Standard SNMP Communication 0C to 50C Standard (coming soon) Operating Case Temperature Storage Temperature Low Electrical Power Consumption Operating Humidity Input/Output Isolation >40/40 dB -40C to 85C Standard 20% to 85% Non-condensing Voltage Supply Range 85 VAC to 265 VAC 50/60 Hz -36 to –60 V DC Optical Connectors Dimensions In Inches See ordering information 19.0”W x 14.76”D x 3.44”H AC version DC version *(Redundant Power Supply is available by Customer request User Specified 19’’ Rack Mounted, 2 RU Polarization Dependant Gain < 0.1 dB Polarization Mode Dispersion < 0.5 ps | 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 3000 Series FIBER OPTICS DATASHEET | JANUARY 2012 Performance Specifications1 Property Unit Limit 3027 3030 PONA Models 3032 3033 Comment 3035 3037 +12 Operating Input Power Pin (dBm) Max +12 +12 +12 +12 +12 Operating Input Power Pin (dBm) Min -10 -10 -10 -10 -10 -10 Output Power Po (dBm) 27.0 30.0 32.0 33.0 35.0 37.0 Nominal (note 2) Noise Figure NF (dB) 5.5/6.0 5.5/6.0 5.5/6.0 5.5/6.0 5.5/6.0 5.5/6.0 (note 3) (note 4) Typ/Max Static Gain Flatness GF (dB) Max +/-2.0 +/-2.0 +/-2.0 +/-2.0 +/-2.0 +/-2.0 Dynamic Gain Flatness (dB) Max +/-2.50 +/-2.50 +/-2.50 +/-2.50 +/-3.00 +/-3.00 (note 5) Output Power Stability (dB) Max +/- 0.2 +/- 0.2 +/- 0.2 +/- 0.2 +/- 0.2 +/- 0.2 (note 6) Power Consumption (steady state regime) Psys (W) Max 20 15 35 20 45 25 55 30 65 40 70 45 50 C Case (premium) o 50 C Case (economy) (note7) Remnant pump power to output Prp (dBm) Nom. <-30 <-30 <-30 <-30 <-30 <-30 o Notes: 1. Unless stated otherwise all specifications apply over the full temperature range and humidity 2. Depending on the fiber optic patch cord interface the measured value can vary up to 0.5 dB less than the actual value. 3. Measured @ 25C, Pin = 0 dBm. Can be measured only after splitting output power 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) @ 1553nm; (Pt = Pp+20 dB; Pt + Pp = 0 dBm) @ 25C; 6. Stability over polarization and temperature 7. Premium version – PONA with cooled, Telecordia qualified pumps Economy version – PONA with uncooled pumps Table for Determination of Minimal Output Optical Power per Port (dBm) Minimum optical power per port (dBm) Number of ports 3027 3030 PONA Models 3032 3033 3035 1 2 4 27 23.5 20.2 30 26.5 23.2 32 28.5 25.2 33 29.5 26.2 35 31.5 28.2 37 33.5 30.2 8 16 16.8 13.4 19.8 16.4 21.8 18.4 22.8 19.4 24.8 21.4 26.8 23.4 32 10.0 13.0 15.0 16.0 18.0 20.0 64 7.0 10.0 12.0 13.0 15.0 17.0 3037 | 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 3000 Series FIBER OPTICS DATASHEET | JANUARY 2012 Block Diagram: Cladding Pump Technology Cladding pump technology uses erbium/ytterbium fiber optic assemblies (double clad fiber and multi-mode pump lasers) to produce cost effective high power optical amplification. This technology enables the development of higher power EDFAssomething that was cost inhibitor when using standard Erbium fiber and single mode pumps. Er/Yb Assembly Er Input Hybrid 980 nm pump Filter / Isolator Input monitor Isolator 1% Tap Output Monitor Multi-mode pumps Drive Electronics Sample FTTx Architecture Splitter OLT Voice ONT ONT ONT ONT 1490nm Businesses Data 1310nm WDM 1550nm Video Splitter - Voice - Data - Video Splitter 1550nm Tx Multi Dwelling Units 20 Km RF ONT ONT ONT ONT Splitter ONT ONT EDFA 20 outputs of 20 dBm ONT ONT Homes | 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 3000 Series FIBER OPTICS DATASHEET | JANUARY 2012 Outline Drawing AC versions shown below with 8 optical output ports DC versions shown below with 8 optical output ports | 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 3000 Series FIBER OPTICS DATASHEET | JANUARY 2012 Ordering Information PONA30 Power Level - - Connector Options - # of Output Ports * - Class Input Voltage 27: 27 dBm SC: SC/APC 01: 1 port P: Premium AC: 90-260 VAC 50/60 Hz 30: 30 dBm FC: FC/APC 02: 2 ports E: Economy DC: -48 VDC 32: 32 dBm EC: E2000/APC 04: 4 ports 33: 33 dBm TC: SC/UPC 08: 8 ports 35: 35 dBm GC: FC/UPC 16: 16 ports 37: 37 dBm SCDPLX: SC/APC Duplex 20: 20 ports 32: 32 ports 64: 64 ports Class: Premium: Utilizes cooled pump lasers Economy: Utilizes uncooled pump lasers * PONA 3000 series with power higher then 30 dBm per port must have special output optical connector(s) and optical bulkhead(s). Their type(s) must be verified prior to placing Purchase Order. Compliance Information FCC: CE:EN50083-2 EN 61000-4-3 EN 55020 EN 61000-3-2 Subpart B. Part 15, Class “A” Unintentional Radiators 19995 with Amendment 1, which incorporates EN 55013 Radiated and Conducted Emissions Radiated Immunity Conducted Immunity Harmonics All Components meet Telecordia GR-1312 and GR-486 Standards (Except Pumps in Economy Class) Fit Rate: 90% Level of Confidence < 2500 @ 30OC Premium PONA 3035 90% Level of Confidence < 2000 @ 30OC Economy PONA 3035 | 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 3000 Series DATASHEET | JANUARY 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 = 1545 ~ 1562 nm (dependant on input source) Maximum Output Power = 5 W (single output, 37 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.