5021TR-E 22 GHz 1310 nm DFB Transceiver DATASHEET | NOVEMBER 2013 Applications Radar Testing Signal Processing Phased Array Antennas Phase Noise Processing MICROWAVE The 5021TR-E, 22 GHz transceiver delivers unmatched performance for radar testing, signal processing, phased array antennas, and phase noise testing. This rugged device eliminates many of the problems that are inherent in alternative transceiver technologies. When used in conjunction with the 355A fiber optic delay spools it offers performance that is superior to acoustic wave and coaxial delay lines. EMCORE’s fiber optic transmitters provide bandwidth that is essentially independent of fiber length, loss or delay, and triple transit signals that are immeasurable. In addition to enhanced electrical performance, the transmitter provides several mechanical advantages. EMCORE’s technology takes advantage of the rigid yet flexible properties of fiber optic cable to provide repeatable enhanced phase and group delay characteristics. The small size of these components allows for a long delay in a compact package with superior temperature stability of fiber. Antenna Remoting Military Communications Block Diagram Telemetry, Tracking & Control (TT&C) Features Bandwidth to 22 GHz Cooled, Isolated Direct-Mod DFB Laser High-Dynamic-Range Typical S21 Graph -40 to +65°C 1310 nm Flat Frequency Response Low Phase Noise CE Certified © 2013 EMCORE Corporation | REV 2013.11 +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. 5021TR-E 22 GHz 1310 nm DFB Transceiver DATASHEET | NOVEMBER 2013 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 Symbol Condition Min Max Unit Operating Temperature Range of Baseplate TOP continuous -40 +65 °C Storage Temperature TSTG - -55 +85 °C RF Input Power PIN 60 seconds - 20 dBm Electrical Characteristics Parameter 5021TR-E Unit Upper Band Edge Frequency, min 22 GHz Lower Band Edge Frequency, max 0.05 GHz Amplitude Flatness, max3 6.0 dB p-p Transmitter Gain (TG), 1 GHz2 -17 dB (W/A) Receiver Gain (RG), 1 GHz -11 dB (A/W) Input RF Return Loss, max3 0.05 GHz - 13.0 GHz 13.0 GHz - 22.0 GHz -7.0 -4.0 dB dB Output RF Return Loss, max 0.05 GHz - 13.0 GHz 13.0 GHz - 18.0 GHz 18.0 GHz - 22.0 GHz -9.0 -6.0 -4.0 dB dB dB 50 Ohm Input 1 dB Compression, min +20 dBm Input Third Order Intercept, min3 0.05 GHz -7.0 GHz 7.0 GHz - 22.0 GHz +30 +25 dBm dBm Noise Figure, max3 0.05 GHz - 3.0 GHz 3.0 GHz - 7.0 GHz 7.0 GHz - 13.0 GHz 13.0 GHz - 18.0 GHz 18.0 GHz - 22.0 GHz 44 50 54 59 61 dB dB dB dB dB 2 Impedance, typ 3 1. Tested at 25°C unless noted otherwise. 2. Link RF GaindB = TG + RG-2* FiberLossdB(assumes RIN = ROUT) 3. Performance applies only within frequency band specified by the model number. Optical Characteristics Parameter Fiber Optical Connectors Specifications Unit Single mode (9/125) µm SC/APC or FC/APC - 9 to 11 dBmo Optical Receiver Input Power 10 dBmo, max Delay - Tx Optical 7.5 ns, max Delay - Rx Optical 7.5 ns, max 5021 Optical Transmitter Output Power © 2013 EMCORE Corporation | REV 2013.11 +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. 5021TR-E 22 GHz 1310 nm DFB Transceiver DATASHEET | NOVEMBER 2013 MICROWAVE DC Interface Characteristics Pin Number Min Typ Max Max Ripple Current 1 11 V 16 V 100 mV p-p 0.3 A max 2 4.5 V 5.5 V 200 mV p-p 1.6 A max Pin/Package Information Nine-Pin, Male D-Sub Connector Pin Number Function 1 +15 VDC 2 +5 VDC 3 Not Used 4 Ground 5 Ground 6 Photodiode Current Monitor 7 Alarm Common 8 Laser Current Monitor 9 Alarm Outline Drawing © 2013 EMCORE Corporation | REV 2013.11 +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. 5021TR-E 22 GHz 1310 nm DFB Transceiver DATASHEET | NOVEMBER 2013 MICROWAVE DC Monitor Voltages Photodiode Current, Pin 6: 1 V/1 mA (into 1 MOhm load). Proportional to photodiode optical input power. Laser DC Current, Pin 8: 1 V/100 mA (into 1 MOhm load) Alarm Circuits Front Panel LEDs Summary Alarm, Pins 7 & 9: Power On Closed when unit is OK. Open if fault or no DC power. The alarm is a dry, form A contact. The alarm is a summary of : 1. +5 VDC Regulator 2. Laser Temperature 3. Laser Optical Power 4. Photodiode Optical Input Power Laser Temperature Stable Laser Power Stable Photodiode Optical Input Power Order Information Model Number Description 5021TR-E-1309-SA Transceiver, 22 GHz, SMA, 1310 nm, 9 dBm, SC/APC 5021TR-E-1309-FA Transceiver, 22 GHz, SMA, 1310 nm, 9 dBm, FC/APC 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. *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. © 2013 EMCORE Corporation | REV 2013.11 +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.