Data Sheet 10Gb/s surface mount coplanar APD preamp receiver with integrated MEMS VOA ATV10GC The ATV10GC receiver consists of an avalanche photodiode, a low-noise preamplifier, a MEMS variable optical attenuator (VOA), and a precision NTC thermistor in a hermetic coplanar package with a connectorized single-mode fiber pigtail. Differential outputs are provided to improve noise rejection for enhanced sensitivity. It has been optimised for use in 10Gb/s metro or long-haul applications, either as a discrete device or within a transponder, using NRZ modulation, with or without FEC, at data rates up to 10.709Gb/s. Features: • High sensitivity, -26.5dBm typical • Integrated MEMS VOA extends overload beyond +10dBm • Low capacitance high speed InGaAs APD photodetector • Supports FEC rates up to 10.709Gb/s • Best in class power consumption, only 350mW • Designed to exceed the environmental requirements of Telcordia GR-468-CORE • RoHS 5/6 compliant Applications: • Client or line side links • DWDM TDM transponder applications 1 Data Sheet Operating Characteristics Case Temperature = 25°C unless otherwise specified Parameter Typ Max Unit 231-1 PRBS BER<10-12 VAPD=VM10 -26.5 -25.0 dBm Sensitivity penalty EOL over temperature [1] [2] 231-1 PRBS BER<10-12 VAPD=VM10 T=-5 to +75°C 0.75 1.0 dB Deviation from linear phase DC - 6GHz -10 +10 ° VAPD=VM10 Small signal 7 7.5 1.1 1.6 Optical sensitivity BOL [1] [2] High frequency -3dB corner Symbol Measurement Conditions Sens fH Low frequency -3dB corner fL Transimpedance gain TZ Small signal Maximum output voltage6 VOUT Peak-to-peak Return loss S22 DC to 7.0GHz PSAT 0dB Attenuation VAPD=VM3 BER<10-12 -3 With VOA actuated +13 T=25°C IAPD=10mA 25 Optical overload [3] [4] [5] [2] Optical overload extension APD breakdown voltage Vbr APD breakdown voltage temperature coefficient TVbr Dark current Id Amplifier bias current Icc Input current for output limiting IIn VOA maximum attenuation Att VOA control voltage 600 0.030 20 kHz 2.3 kΩ 700 mV -8 dB dBm dBm 0.045 75 lim 40 -1 At 90% of Vbr Peak-to-peak GHz 40 V 0.061 V/°C 100 nA 95 mA 0.5 mA 30 dB VAtt Attenuation = 20dB 5.5 9 V VOA current lAtt Attenuation = 20dB 6 7.2 mA VOA power dissipation (continuous) PAtt Attenuation = 20dB 33 65 mW From attenuation = 1dB to 20dB 5 10 ms 0.15 dB VOA response time [7] [8] Polarisation dependent loss PDL VOA unbiased Polarisation dependent loss PDL VOA biased Thermistor resistance RTH T=25°C Notes: 2 Min [1] [2] [3] [4] [5] [6] [7] [8] Optical Wavelength between 1525-1575nm. Data to 1610nm available on request. Measured with 9.95328Gb/s NRZ 1031-1 PRBS data and no FEC. Load impedance is 50Ω AC-coupled. Excludes APD responsivity. Differential. Single ended. Not polarity sensitive. Response time quoted is to achieve 99% of the desired attenuation value. 0.4 10 dB kΩ Data Sheet Absolute Maximum Ratings The table below provides maximum and/or minimum values of critical parameters which will not permanently damage the device, but for which the operating specification may not hold Parameter Symbol Min Max Unit Amplifier bias voltage VCC -6 0.5 V Top -40 +85 °C Tstg -40 +85 °C 3 mA Operating temperature Storage temperature Input photocurrent [1] [2] IPD [3] APD bias voltage VOA control voltage [4] VAPD 0 Vbr V VATT 0 9 V Fiber bend radius 20 mm Notes: [1] The operating temperature is defined as the temperature of the module case. [2] The rating is referred to the ambient temperature. [3] VAPD · VM3. Although implementation of a current limit is intuitive, it is not recommended as biasing below the specified M = 3 voltage in the presence of a high optical power has been shown to cause device damage. [4] Polarity Independent. Class 2 ESD precautions must be observed when handling these devices. Pin Out 3 Pin # Symbol Parameter Pin # Function Parameter 1 VATT VOA control 10 Out_P Positive RF data output 2 VAPD APB bias voltage 11 GND Case RF ground 3 NC No connection 12 GND Case ground 4 Vee Amplifier supply (-5.2V) 13 FB_in Output offset control 5 NC No connection 14 NC No connection 6 GND Case ground 15 NC No connection 7 GND Case RF ground 16 RTH Thermistor 8 Out_N Negative RF data output 17 GND Case ground 9 GND Case ground Data Sheet Circuit Schematic VATT VAPD RTH 10kOhms @ 25 °C 1nF Out_P Out_N FB_IN 1nF Vee 1nF Figure [1] ATV10GC Circuit schematic. Outline Drawing Dimensions in mm Figure [2] Outline diagram (Illustration only. For full details, refer to appropriate assembly drawing). Note: Fiber is 900mm secondary coated single-mode fiber, length = 1200 +0/-200mm. 4 Data Sheet Typical Performance Characteristics Figure [3] Electrical output data eye, M = 10, 10Gb/s 231-1 PRBS, -20dBm optical input. Figure [4] Typical BER performance, M = 10, 10Gb/s 231-1 PRBS, optical extinction ratio = 12dB. 5 Data Sheet Typical Performance Characteristics (continued) Figure [5] Typical VOA attenuation. Figure [6] FB_in transfer function. 6 Data Sheet RoHS Compliance Bookham is fully committed to environment protection and sustainable development and has set in place a comprehensive program for removing polluting and hazardous substances from all of its products. The relevant evidence of RoHS compliance is held as part of our controlled documentation for each of our compliant products. RoHS compliance parts are available to order, please refer to the ordering information section for further details. Ordering Information: ATV10GC - (Connector) J28 = SC/PC J57 = LC e.g. ATV10GC-J28 is an ATV10GC with an SC/PC connector. Other options available on request. Contact Information North America Bookham Worldwide Headquarters Europe Paignton Office Asia Shenzhen Office 2584 Junction Ave. San Jose CA 95134 USA Brixham Road Paignton Devon TQ4 7BE United Kingdom 2 Phoenix Road Futian Free Trade Zone Shenzhen 518038 China • Tel: +1 408 919 1500 • Tel: +44 (0) 1803 66 2000 • Fax: +1 408 919 6083 • Fax: +44 (0) 1803 66 2801 • Fax: +86 755 33305805 +86 755 33305807 • Tel: +86 755 33305888 Important Notice Performance figures, data and any illustrative material provided in this data sheet are typical and must be specifically confirmed in writing by Bookham before they become applicable to any particular order or contract. In accordance with the Bookham policy of continuous improvement specifications may change without notice. The publication of information in this data sheet does not imply freedom from patent or other protective rights of Bookham or others. Further details are available from any Bookham sales representative. www.bookham.com [email protected] 7 ISO14001:1996 EMS 504193 TL9000 Rev 3.0 (ISO9001:2000) FM15040 BH12853 Rev 2.0 January 2007. ©Bookham 2006. Bookham is a registered trademark of Bookham Inc.