CV210-2A The Communications Edge TM Cellular-band Dual-Branch Downconverter GND GND IF1 OUTPUT GND MIXER IF/RF1 AMP1 INPUT GND 27 26 25 24 23 22 RF/IF 21 BIAS GND 2 20 GND IF Amp 1 BIAS 3 19 N/C GND 4 18 GND N/C 5 LPF GND 6 N/C 7 LO Driver Amp 17 LO IF Amp 2 16 GND 15 N/C Typical applications include frequency downconversion used in CDMA/GSM/TDMA, CDMA2000, W-CDMA, and EDGE 2.5G and 3G mobile base transceiver stations. 10 11 12 13 14 GND 9 IF2 OUTPUT RF/IF 8 GND It is ideally suited for high dynamic range receiver front ends using diversity receive channels. Functionality includes frequency conversion and IF amplification, while an integrated LO driver amplifier powers the passive mixer. The MCM is implemented with reliable and mature GaAs MESFET and InGaP HBT technology. 28 N/C 1 GND Dual channels for diversity +29.5 dBm Input IP3 +12 dBm Input P1dB RF: 800 – 960 MHz IF: 200 – 250 MHz +5V Single supply operation Pb-free 6mm 28-pin QFN package Low-side LO configuration Common footprint with other PCS/UMTS/cellular versions The CV210-2A is a dual-channel high-linearity downconverter designed to meet the demanding performance, functionality, and cost goals of current and next generation mobile infrastructure basestations. It provides high dynamic range performance in a low profile leadfree/RoHS-compliant surface-mount leadless package that measures 6x6 mm square. AMP2 INPUT • • • • • • • • • Functional Diagram GND • High dynamic range downconverter with integrated LO and IF amplifiers Product Description MIXER IF/RF2 Product Features Product Information Top View Specifications (1) Parameters Units RF Frequency Range LO Frequency Range IF Center Frequency Range % Bandwidth around IF center frequency IF Test Frequency SSB Conversion Gain Gain Drift over Temp (-40 to 85° C) Input IP3 Input IP2 Input 1 dB Compression Point Noise Figure LO Input Drive Level LO-RF Isolation LO-IF Isolation Branch-Branch Isolation Return Loss: RF Port Return Loss: LO Port Return Loss: IF Port Operating Supply Voltage Supply Current Thermal Resistance Junction Temperature MHz MHz MHz % MHz dB dB dBm dBm dBm dB dBm dB dB dB dB dB dB V mA °C / W °C Min 8 -1.5 +25 +33 -2.5 320 Typ Max 800 – 960 550 – 760 200 – 250 ±7.5 240 10 ±0.3 +29.5 +39 +12 10.2 0 18 32 45 20 20 12 +5 360 Comments See note 2 See note 3 12 1.5 Temp = 25 °C Referenced to 25 °C See note 4 See note 4 See note 4 See note 5 +2.5 PLO = 0 dBm PLO = 0 dBm 475 27 160 See note 6 1. Specifications when using the application specific circuit (shown on page 3) with a low side LO = 0 dBm and IF = 240 MHz in a downconverting application at 25° C. 2. IF matching components affect the center IF frequency. Proper component values for other IF center frequencies than shown can be provided by emailing to [email protected]. 3. The IF bandwidth of the converter is defined as 15% around any center frequency in its operating IF frequency range. The bandwidth is determined with external components. Specifications are valid around the total ±7.5% bandwidth. ie. with a center frequency of 240 MHz, the specifications are valid from 240 ± 18 MHz. 4. Assumes the supply voltage = +5 V. IIP3 is measured with Δf = 1 MHz with RFin = -5 dBm / tone. 5. Assumes LO injection noise is filtered at the thermal noise floor, -174 dBm/Hz, at the RF, IF, and Image frequencies. 6. The maximum junction temperature ensures a minimum MTTF rating of 1 million hours of usage. Absolute Maximum Rating Parameter Operating Case Temperature Storage Temperature DC Voltage Junction Temperature Rating -40 to +85 °C -55 to +150 °C +5.5 V +220 °C Ordering Information Part No. Description Cellular-band Dual-Branch Downconverter CV210-2AF (lead-free/RoHS-compliant 6x6mm QFN package) CV210-2APCB240 Fully-Assembled Eval. Board, IF = 240MHz Operation of this device above any of these parameters may cause permanent damage. Specifications and information are subject to change without notice. WJ Communications, Inc • Phone 1-800-WJ1-4401 • FAX: 408-577-6621 • e-mail: [email protected] • Web site: www.wj..com Page 1 of 6 March 2006 CV210-2A The Communications Edge TM Cellular-band Dual-Branch Downconverter Product Information GND MIXER IF/RF1 GND AMP1 INPUT GND IF1 OUTPUT GND Device Architecture / Application Circuit Information 28 27 26 25 24 23 22 RF/IF N/C 1 Typical Downconverter Performance Chain Analysis (Each Branch) 21 BIAS GND 2 20 GND IF Amp 1 BIAS 3 Stage 19 N/C GND 4 18 GND N/C 5 LPF GND 6 N/C 7 LO Driver Amp 17 LO IF Amp 2 16 GND 15 N/C 8 9 10 11 12 13 14 GND MIXER IF/RF2 GND AMP2 INPUT GND IF2 OUTPUT GND RF/IF LO Amp / MMIC Mixer IF Amplifier CV210-2A Gain (dB) -9 19 Input P1dB (dBm) Input IP3 (dBm) NF (dB) 11 30 9.3 2 22 1.8 Cumulative Performance Current (mA) 85 150 385* Cumulative Performance Input Input NF P1dB IP3 (dB) (dBm) (dBm) -9 11 30 9.3 10 8 27.5 11 10 +8 +27.5 11 Gain (dB) * The 2nd branch includes another mixer and IF amplifier, which increases the total current consumption of the MCM to be 385 mA. Printed Circuit Board Material: .014” FR-4, 4 layers, .062” total thickness CV210-2A: The application circuit can be broken up into three main functions as denoted in the colored dotted areas above: RF/IF diplexing (blue), IF amplifier matching (green), and dc biasing (purple). There are various placeholders for chip components in the circuit schematic so that a common PCB can be used for all WJ dual-branch converters. Further details are given in the Application Note located on the website titled “CV2xx Series - PWB Design Guidelines”. External Diplexer: In a downconversion application, the incoming RF signal impinges on the switching elements of the mixer; the interaction with these switches produces a signal at the IF frequency. The two signals (RF and IF) are directed to the appropriate ports by the external diplexer. A six-element diplexer is used in the circuit implementation. IF Amplifier Matching: The IF amplifier requires matching elements to optimize the performance of the amplifier to the desired IF center frequency. Since IF bandwidths are typically on the order of 5 to 10%, a simple two element matching network, in the form of either a high-pass or low-pass filter structure, is sufficient to match the MMIC IF amplifier over these narrow bandwidths. Proper component values for other IF center frequencies can be provided by emailing to [email protected]. DC biasing: DC bias must be provided for the LO and IF amplifiers in the converter. R1 sets the operating current for the last stage of the LO amplifier and is chosen to optimize the mixer LO drive level. Proper RF chokes and bypass capacitors are chosen for proper amplifier biasing at the intended frequency of operation. The “+5 V” dc bias should be supplied directly from a voltage regulator. Specifications and information are subject to change without notice. WJ Communications, Inc • Phone 1-800-WJ1-4401 • FAX: 408-577-6621 • e-mail: [email protected] • Web site: www.wj..com Page 2 of 6 March 2006 CV210-2A The Communications Edge TM Cellular-band Dual-Branch Downconverter Product Information Application Circuit: IF = 240 MHz (CV210-2APCB240) Bill of Materials Ref. Desig. R1 R2, R3, R4 R6, R7 C1, C5, C10, C15 C2, C8 C3, C9 C4, C11 C6, C12, C14 C7, C13 C16, C17 L1 L2, L6 L3, L7 L4, L8 L5, L9 L10, L11 C19, C20, C21, C22 U1 Component 11.3 Ω chip resistor 0 Ω chip resistor 2.2 Ω chip resistor 1000 pF chip capacitor 5.6 pF chip capacitor 12 pF chip capacitor 3.9 pF chip capacitor .01 μF chip capacitor 100 pF chip capacitor 8.2 pF chip capacitor 120 nH chip inductor 12 nH chip inductor 33 nH chip inductor 56 nH chip inductor 220 nH chip inductor 15 nH chip inductor Do Not Place CV210-2A WJ Converter Size 0805 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0805 0603 QFN PCB Layout Circuit Board Material: .014” FR-4, 4 layers, .062” total thickness Specifications and information are subject to change without notice. WJ Communications, Inc • Phone 1-800-WJ1-4401 • FAX: 408-577-6621 • e-mail: [email protected] • Web site: www.wj..com Page 3 of 6 March 2006 CV210-2A The Communications Edge TM Cellular-band Dual-Branch Downconverter Product Information Conversion Gain vs IF Frequency Input IP3 vs IF Frequency Input IP2 vs IF Frequency LO = 0 dBm, LO = 595 MHz, low-side LO LO = 0 dBm, LO = 595 MHz, low-side LO LO = 0 dBm, LO = 595 MHz, low-side LO 34 11 10 9 8 225 235 +85° C 245 255 30 28 26 24 265 215 -40° C 225 235 265 215 -40° C 225 +25° C 235 +85° C 245 255 Input IP2 vs RF Frequency 25° C, IF = 240 MHz, low-side LO 9 LO = -2.5 dBm LO = 0 dBm LO = 2.5 dBm 8 825 850 875 900 44 32 30 28 LO = -2.5 dBm LO = 0 dBm LO = 2.5 dBm 26 24 925 800 825 850 875 900 42 40 38 LO = -2.5 dBm LO = 0 dBm LO = 2.5 dBm 36 34 925 800 825 RF Frequency (MHz) 850 875 900 Input IP3 vs RF Frequency Input IP2 vs RF Frequency LO = 0 dBm, IF = 240 MHz, low-side LO LO = 0 dBm, IF = 240 MHz, low-side LO LO = 0 dBm, IF = 240 MHz, low-side LO 10 9 8 -40° C 825 +25° C 850 875 +85° C 900 32 30 28 26 24 925 42 Input IP2 (dBm) Input IP3 (dBm) 34 11 800 -40° C 825 RF Frequency (MHz) +25° C 850 875 +85° C 900 40 38 36 34 32 925 800 -40° C 825 RF Frequency (MHz) +25° C 850 +85° C 875 900 Input IP3 vs RF Frequency Input IP2 vs RF Frequency 25° C, LO = 0 dBm, IF = 240 MHz, low-side LO 25° C, LO = 0 dBm, IF = 240 MHz, low-side LO 25° C, LO = 0 dBm, IF = 240 MHz, low-side LO 10 9 Vdd = 4.9 V Vdd = 5.0 V Vdd = 5.1 V 8 7 825 850 875 RF Frequency (MHz) 900 925 Input IP3 (dBm) 34 11 42 32 30 28 Vdd = 4.9 V Vdd = 5.0 V Vdd = 5.1 V 26 24 800 925 RF Frequency (MHz) Conversion Gain vs RF Frequency 12 925 RF Frequency (MHz) Conversion Gain vs RF Frequency 12 265 25° C, IF = 240 MHz, low-side LO 34 RF Frequency (MHz) Conversion Gain (dB) 32 Input IP3 vs RF Frequency 7 Conversion Gain (dB) 34 25° C, IF = 240 MHz, low-side LO 10 800 255 36 Conversion Gain vs RF Frequency 11 800 245 38 IF Frequency (MHz) 12 7 +85° C 40 IF Frequency (MHz) Input IP3 (dBm) Conversion Gain (dB) IF Frequency (MHz) 800 +25° C Input IP2 (dBm) 215 +25° C 32 Input IP2 (dBm) 7 -40° C 42 Input IP2 (dBm) 12 Input IP3 (dBm) Conversion Gain (dB) CV210-2APCB240 Application Circuit Performance Plots 825 850 875 900 40 38 36 Vdd = 4.9 V Vdd = 5.0 V Vdd = 5.1 V 34 32 925 RF Frequency (MHz) 800 825 850 875 900 925 RF Frequency (MHz) Specifications and information are subject to change without notice. WJ Communications, Inc • Phone 1-800-WJ1-4401 • FAX: 408-577-6621 • e-mail: [email protected] • Web site: www.wj..com Page 4 of 6 March 2006 CV210-2A The Communications Edge TM Cellular-band Dual-Branch Downconverter Product Information CV210-2APCB240 Application Circuit Performance Plots (cont’d) L-R Isolation vs LO Frequency L-I Isolation vs LO Frequency Referenced with LO = 0 dBm Referenced with LO = 0 dBm 25 20 15 10 500 550 +25° C 600 +85° C 650 700 40 35 30 25 -40° C 500 550 +25° C 600 +85° C 650 700 30 20 10 0 750 800 825 850 875 900 LO Frequency (MHz) LO Frequency (MHz) RF Frequency (MHz) RF Return Loss vs RF Frequency IF Return Loss vs IF Frequency LO Return Loss vs LO Frequency 25° C 25° C 5 10 15 20 25 30 0 5 10 15 20 25 30 825 850 875 900 925 225 235 245 15 20 25 255 265 500 550 IF Frequency (MHz) 600 650 700 750 LO Frequency (MHz) Noise Figure vs Temperature Input P1dB vs Temperature RF = 835 MHz, IF = 240 MHz, LO = 0 dBm @595 MHz RF = 835 MHz, IF = 240 MHz, LO = 0 dBm @595 MHz 14 14 Input P1dB (dBm) Noise Figure (dB) 5 10 30 215 RF Frequency (MHz) 12 10 8 6 12 10 8 6 4 4 -40 925 25° C 0 Return Loss (dB) Return Loss (dB) 40 20 750 0 800 50 Return Loss (dB) 5 -40° C 25° C 45 Isolation (dB) L-I Isolation (dB) L-R Isolation (dB) 30 Branch-Branch Isolation vs RF Frequency -20 0 20 40 Temperature (°C) 60 80 -40 -20 0 20 40 60 80 Temperature (°C) Specifications and information are subject to change without notice. WJ Communications, Inc • Phone 1-800-WJ1-4401 • FAX: 408-577-6621 • e-mail: [email protected] • Web site: www.wj..com Page 5 of 6 March 2006 CV210-2A The Communications Edge TM Cellular-band Dual-Branch Downconverter Product Information CV210-2AF Mechanical Information This package is lead-free/RoHS-compliant. It is compatible with both lead-free (maximum 260°C reflow temperature) and leaded (maximum 245°C reflow temperature) soldering processes. The plating material on the pins is annealed matte tin over copper. Product Marking Outline Drawing The component will be lasermarked with a “CV210-2AF” product label with an alphanumeric lot code on the top surface of the package. Tape and reel specifications for this part will be located on the website in the “Application Notes” section. ESD / MSL Information ESD Rating: Value: Test: Standard: Class 1B Passes 500V to <1000V Human Body Model (HBM) JEDEC Standard JESD22-A114 ESD Rating: Value: Test: Standard: Class III Passes 500V to <1000V Charged Device Model (CDM) JEDEC Standard JESD22-C101 MSL Rating: Level 2 at +260°C convection reflow Standard: JEDEC Standard J-STD-020 Functional Pin Layout Mounting Configuration / Land Pattern Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 FUNCTION No Connect GND LO Amp Bias GND No Connect GND No Connect GND Channel 2 Mixer IF/RF Port (goes to diplexer) GND Channel 2 IF Amp Input GND Channel 2 IF Amp Output / Bias GND Pin 15 16 17 18 19 20 21 22 23 24 25 26 27 28 FUNCTION No Connect GND LO input GND No Connect GND +5 V GND Channel 1 IF Amp Output / Bias GND Channel 1 IF Amp Input GND Channel 2 Mixer IF/RF Port (goes to diplexer) GND Specifications and information are subject to change without notice. WJ Communications, Inc • Phone 1-800-WJ1-4401 • FAX: 408-577-6621 • e-mail: [email protected] • Web site: www.wj..com Page 6 of 6 March 2006