3540A,10340A 5 GHz DFB Laser Transmitters DATASHEET | JANUARY 2014 MICROWAVE The 3540A and 10340A Distributed Feedback (DFB) laser transmitters provide exceptional performance for linear fiber optics communications in very wide bandwidth applications. EMCORE’s linear fiber optics are an excellent alternative to using coaxial cable systems to transmit 10 MHz to 5 GHz signals. They offer significant improvements in reliability in microwave communications networks by transmitting the RF signal in its original format. As a result of these properties, these microwave DFB laser transmitters provide significant improvements in signal quality for a wide variety of applications including antenna remoting, timing and reference signal distribution, telemetry, measurement and delay lines. Applications Antenna Remoting Cellular and PCS Networks Military Triband Communications The 3540A is a flange-mount design for extreme environments and the 10340A is a plug-in for integration with EMCORE’s System 10000 rack-mountable chassis and power supplies. Electronics within the flange-mount and plug-in transmitters control the laser temperature and DC bias current and provide warnings whenever the temperature or power deviates from their intended levels, thus providing a self-regulating, fully-integrated microwave product. These units provide high-quality noise performance in sensitive optical links. Tracking, Telemetry, and Control Performance Highlights Features High-Dynamic-Range Long Distance Communications 10 MHz to 5 GHz Bandwidth Built-in Optical Isolator, 1310 nm Parameter Min Typ Max Units Available Wavelengths 1290 - 1340 nm - 9 - dBm Plug-in -10 - +50 °C Flange-Mount -40 - +65 °C Frequency Range 0.01 - 5.00 GHz Optical Output Power 1310 nm Temperature Range CE Certified © 2014 EMCORE Corporation | REV 2014.01 +1 626-293-3400 [email protected] www.emcore.com Information contained herein is deemed to be reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specifications at any time without notice. 3540A,10340A 5 GHz DFB Laser Transmitters DATASHEET | JANUARY 2014 MICROWAVE Absolute Maximum Ratings Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. These are absolute stress ratings only. Functional operation of the device is not implied at these or any other conditions in excess of those given in the operational sections of the data sheet. Exposure to absolute maximum ratings for extended periods can adversely affect device reliability. Parameter Min Max Units Flange-Mount -40 +65 °C Plug-in -10 +50 °C 4 10 ns Operating Temperature Range of Baseplate: Delay Symbol Condition TOP Continuous - Storage Temperature ESD - TSTG - -40 +85 °C - HBM: R = 1500 Ohm, C = 100 pF -500 500 V Optical Specifications Parameter Specifications Units Flange-Mount Tx 3540A - Plug-In Tx 10340A - Wavelength 1310 nm + 30 nm Optical Power, Typical @ ITH + 55 mA 9 min dBm 8 ns Model Number Delay Optical Power Stability vs. Temperature +15 % Transmitter Gain (TG) -21 dB mW/mA RF Characteristics Parameter Specifications Units Flange-Mount Tx 3540A - Plug-In Tx 10340A - 5 GHz Model Number Maximum Frequency Minimum Frequency 10 MHz Amplitude Flatness1 & 2 3.0 dB p-p Input Return Loss (50 Ω) 7.5 dB Input 1 dB Compression +20 dBm +30 - 41 - Input Third Order Intercept3 0.01 GHz - 5.0 GHz Noise Figure (dB)4 0.01 GHz - 5.0 GHz Note 1: Specifications guaranteed when unit is connected to an optical path with return loss > 35 dB. Note 2: Peak to Peak Note 3: Two Carrier Test Note 4: No RF Input © 2014 EMCORE Corporation | REV 2014.01 +1 626-293-3400 [email protected] www.emcore.com Information contained herein is deemed to be reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specifications at any time without notice. 3540A,10340A 5 GHz DFB Laser Transmitters DATASHEET | JANUARY 2014 MICROWAVE DC Pin Number Min Typ Max Max Ripple Current 1 14 V 15 V 16 V 100 mV p-p 0.3 A max 2 4.75 V 5V 5.5 V 200 mV p-p 1.5 A max Connector Options Parameter Specifications RF Connector SMA Optical Connector FC/APC 3540A Transmitter Mechanical Dimensions 10340A Transmitter Mechanical Dimensions © 2014 EMCORE Corporation | REV 2014.01 +1 626-293-3400 [email protected] www.emcore.com Information contained herein is deemed to be reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specifications at any time without notice. 3540A,10340A 5 GHz DFB Laser Transmitters DATASHEET | JANUARY 2014 MICROWAVE Front Panel LEDs DC Monitor Voltages Power On Photodiode Current, Pin 6 1 V/mA + 2% accuracy (into 1 MΩ load) Proportional to laser output power. Laser Power Stable Laser Temperature Stable Laser DC Current, Pin 8 1 V/100 mA + 2% accuracy (into 1 MΩ load) Alarm Circuits The alarms are open-collector outputs capable of providing 20 mA when active and with standing 15 V when off. Low Optical Power, Pin 7 Sinks current when power is below 90% of set point. Laser Temperature, Pin 9 Sinks current when laser internal temperature exceeds +2°C of set point nominally 25°C Pin Information Ordering Information Pin Number Description 1 + 15 VDC 2 + 5 VDC 3 NC 4 Power Ground 5 Reference Ground 6 Photodiode Current Monitor 7 Low Optical Power Alarm1 8 Laser Current Monitor 9 Over-Temperature Alarm1 Option -020 Connector Pigtail Flange Plug-in FC/APC Bulkhead Optical Connector X X Note 1: Open Collector Outputs Laser Safety This product meets the appropriate standard in Title 21 of the Code of Federal Regulations (CFR). FDA/CDRH Class 1M laser product. This device has been classified with the FDA/CDRH under accession number 0220191. All versions of this laser are Class 1M laser product, tested according to IEC 60825-1:2007 / EN 60825-1:2007. An additional warning for Class 1M laser products. For diverging beams, this warning shall state that viewing the laser output with certain optical instruments (for example: eye loupes, magnifiers, and microscopes) within a distance of 100 mm may pose an eye hazard. For collimated beams, this warning shall state that viewing the laser output with certain instruments designed for use at a distance (for example: telescopes and binoculars) may pose an eye hazard. Wavelength = 1.3/1.5 μm. Maximum power = 30 mW. INVISIBLE LASER RADIATION AVOID DIRECT EXPOSURE TO BEAM Wavelength: 1.5 µm Max. Output: 50 mW Class 1M Laser Product INVISIBLE LASER RADIATION IS EMITTED FROM THE END OF FIBER OR CONNECTOR Avoid direct exposure to beam Do not view beam directly with optical instruments INVISIBLE LASER RADIATION EMITTED FROM END OF FIBER OR CONNECTOR CLASS 1M LASER PRODUCT IEC 60825-1:2007 EN 60825-1:2007 MAX OUTPUT: 50 mW WAVELENGTH: 1.5 µm (+ 1460 to 1620 nm) Complies with 21 CRF 1040.10 and 1040.11 except for deviations pursuant to Laser Notice No. 50, dated June 24, 2007 G8760-073-001 REV.3 *Caution - Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. *IEC is a registered trademark of the International Electrotechnical Commision. © 2014 EMCORE Corporation | REV 2014.01 +1 626-293-3400 [email protected] www.emcore.com Information contained herein is deemed to be reliable and accurate as of the issue date. EMCORE reserves the right to change the design or specifications at any time without notice.