Preliminary QPB9010 xPON Video Receiver with integrated VCA Product Description The QPB9010 is a video receiver integrated circuit (IC) which provides a low noise analog interface to optical access triplexer modules used in single family ONTs in fiber to the premise (FTTP) applications. The QPB9010 28 pin, 11.0 mm x 11.0 mm x 1.375 mm package exhibits low input noise and distortion to meet critical FTTP link requirements. QPB9010 employs an integrated voltage controlled attenuator that provides, with external control circuitry, automatic gain control to Product Features maintain a constant +19 to +23 dBmV / channel output to insure consistent video quality. 45 1218 MHz Operational Bandwidth Efficient Power Consumption: 1.6 W Low Noise: 3.5 pA / Hz Equivalent Input Noise Current (EINC) Functional Block Diagram Linearity: -65 dBc CSO and -66 dBc CTB at +22 dBmV RF Output per Channel Vcc, Vdd2 (79-NTSC Equivalent Channels) Integrated VCA, 25 dB Attenuation Range QPB9010 Vcc Temperature Sensing Feature OUTPUT Photo Diode TIA Driver Temperature Att. adjust Sensing Applications xPON RF Overlay Video Receiver for FTTX Triplexer- Equipped Optical Network Termination (ONT) and RFoG Network Interface Unit (NIU) Ordering Information Part No. Description QPB9010SB Sample bag 5 pcs QPB9010SQ Sample bag 25 pcs QPB9010SR 7 Reel with 100 pcs QPB9010TR7 7 Reel with 250 pcs QPB9010TR13 13 Reel with 750 pcs QPB9010PCBA-410 Fully assembled Evaluation Board Data Sheet Rev.B,November 29, 2017 Subject to change without notice 1 of 14 www.qorvo.com Preliminary QPB9010 Absolute Maximum Ratings Recommended Operating Conditions Parameter Min Typ Max Units Parameter Valu e / R an g e DC Supply over-voltage (Vcc) +15 V DC Supply Voltage (Vcc) +11.4 +12 +12.6 V DC Supply over-voltage (Vdd2, Vc, MODE) +6V DC Supply Voltage (Vdd2) +4.5 +5.0 +5.5 V Storage Temperature 40 to 100C Operating Mounting Base Temperature 40 to 85C Operating Mounting Base -40 +85 C Temperature Electrical specifications are measured at specified test conditions Exceeding any one or a combination of the Absolute Maximum Rating in application circuit. Specifications are not guaranteed over all conditions may cause permanent damage to the device. Extended application of Absolute Maximum Rating conditions to the device may recommended operating conditions. reduce device reliability. Electrical Specifications tested in evaluation circuit Conditions (Vcc=12V, Vdd2=5V, Parameter Min Typ Max Units TMB=30C, ZL=75 , ATT=020dB) Steady state operation, current draw during attenuation Supply Current (I ) 135 mA cc state transitions is higher. Frequency Range 45 1218 MHz 1 Spectral sensitivity 0dBm optical input, 1310nm 900 mV/mW Gain (O/E) 1218MHz 37 dBA/W 2 Gain Slope 45MHz to 1218MHz 1 dB 3 Gain Flatness 45MHz to 1218MHz 2 dB Output Return Loss (S22) 45MHz to 1218MHz -15 dB Equivalent Input Noise (EINC) 45MHz to 1218MHz, ATT=0dB 3.5 pA/ Hz Optical Input power +2 dBm Source: 79 NTSC analog channels (55.25 to 547.25MHz), flat, CSO -65 dBc OMI = 2.82% per channel DUT: +2 dBm optical input power, attenuator set to CTB -66 dBc RFOUT = +22 dBmV per channel Voltage Control Range, Positive MODE Pin Logic High: Control voltage Vc=5V is lowest insertion loss 0 03 5 V Attenuation Slope Voltage Control Range, Negative MODE Pin Logic Low: Control voltage Vc=0V is lowest insertion loss 0 03 5 V Attenuation Slope MODE Pin Logic Low 0.4 V MODE Pin Logic High 1 V Attenuator Range 45MHz to 1218MHz 025 dB Thermal Resistance T taken at +85 C from backside of PCB under the QPB9010 30 K/W REF 1. Measured between OPS pin and GND on evaluation board. 2. The slope is defined as the difference between the gain at start frequency and the gain at stop frequency. 3. Measured as sum of positive and negative deviation from a straight line between gain at start frequency and gain at stop frequency. Composite Second Order (CSO) - The CSO parameter (both sum and difference products) is defined by ANSI/SCTE 6. Composite Triple Beat (CTB) The CTB parameter is defined by ANSI/SCTE 6. Data Sheet Rev.B,November 29, 2017 Subject to change without notice 2 of 14 www.qorvo.com