CMY210 Datasheet Ultra-Linear Mixer with Integrated LO Buffer Description Applications The CMY210 is an all port, single-ended, general purpose up- and down-converter. It combines small conversion losses and excellent intermodulation characteristics with a low demand of LO- and DC-power. The internal level controlled LO-buffer enables good performance over a wide range of LO level inputs. The mixer configuration allows RF or IF feed to either pin 1 or 6 and thus requires a frequency separation circuit on the pc board. Features • Very High Input IP3 of 24 dBm typical • Up- or DownConverters • Mobile Phones Receivers • WLAN Receivers • Mobile Phone or WLAN Basestations Package Outline, MW-6 RF or IF GND • Very Low LO Power demand of 0 dBm typical; Wide input range • Wide LO Frequency Range: <500 MHz to >2.5 GHz • Single-Ended Ports LO in 1 2 3 6 5 4 • RF- and IF-Port Impedance 50 ohms • Operating Voltage Range: <3 to 6 V • Very Low Current Consumption: 6 mA typical • All Gold Metalization For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 IF or RF GND V DD 2 CMY 210 Datasheet ________________________________________________________________________________________________________ Maximum Ratings Parameter Port Supply Voltage Symbol Value Unit min max 4 VDD 0 6 V 3 V3 -3 0,5 V 1, 6 V1,6 - 0,5 + 0,5 V 1, 6 Pin,RF 17 dBm 3 Pin,LO 10 dBm Channel Temperature TCh 150 °C Storage Temperature Tstg 150 °C DC-Voltage at LO Input DC-Voltage at RF-IF Ports Power into RF-IF Ports Power into LO Input 2) Thermal Resistance Channel to Soldering Point (GND) -55 RthChS ≤100 K/W 1) For detailed dimensions see page 7. 2) For DC test purposes only, no DC voltages at pins 1, 6 in application For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 3 CMY 210 Datasheet ________________________________________________________________________________________________________ Electrical Characteristics Test conditions: Ta = 25°C; VDD= 3V, see test circuit; fRF = 808MHz; fLO = 965MHz; PLO = 0dBm; fIF = 157MHz, unless otherwise specified: Parameter, Test Conditions Symbol min typ max Unit Operating Current Iop - 6.0 8.0 mA Conversion Loss Lc - 5.7 7.0 dB SSB Noise Figure Fssb - 6.0 - dB 2 Tone 3rd Order IMD dIM3 PRF1 = PRF2 = -3dBm fRF1 = 806MHz; fRF2 = 810MHz; fLO =965MHz - 54 - dBc 3rd Order Input Intercept Point IP3in 20 24 - dBm P-1dB Input Power P-1dB - 14 - dBm LO Leakage at RF/IF-Port (1,6) PLO 1,6 - -8 - dBm Applications Information Test circuit / application example Notes for external elements: L2 L1 in/ out C1 out/ in IF RF 50 Ohm 50 Ohm C2 1 CMY210 6 3 LOin C3 L3 4 C4 2,5 L4 Vdd L1, C1: Filter for upper frequency; C2, L2: Filter for lower frequency; each filter is a throughpath for the desired frequency (RF or IF) and isolates the other frequency (IF or RF) and its harmonics. These two filters must be connected to pin 1 and pin 6 directly. Parasitic capacitances at the ports 1 and 6 must be as small as possible. L4 and C4 are optimized by indicating lowest Iop at used LOfrequency; same procedure for L3. The ports 1, 3 and 6 must be DC open. Lumped element values for 800MHz test and application circuit: f LO MHz 965 F RF MHz 808 F IF MHz 157 L1 nH 8.2 C1 pF 3.9 L2 nH 8.2 C2 pF 3.3 L3 nH 6.8 For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 C3 pF 47 L4 nH 15 C4 pF 33 4 CMY 210 Datasheet ________________________________________________________________________________________________________ Applications Information (cont) PCB-Layout for 800MHz test and application circuit: 33pF 15nH 3.3pF 33pF 6.8nH CMY210 3.9pF 8.2nH Actual size 8.2nH Typical lumped element values for different RF-frequencies: f RF MHz 400 450 900 1500 1800 2000 2400 L1 nH 12 12 8.2 3.3 3.3 3.3 1.8 C1 pF 15 12 3.9 2.7 2.2 1.8 2.7 L2 nH 12 12 8.2 3.3 3.3 3.3 1.8 C2 pF 12 10 3.3 2.2 1.8 1.2 1.5 Typical lumped element values for different LO-frequencies: f LO MHz 500 750 800 950 1100 1400 1600 1800 2000 2100 2300 L3 nH 15 6.8 6.8 6.8 6.8 6.8 6.8 6.8 6.8 6.8 4.7 C3 pF 82 33 33 27 27 22 18 15 12 12 12 L4 nH 47 22 18 15 12 6.8 4.7 3.3 2.2 1.8 1.2 C4 pF 82 33 33 27 27 22 18 15 12 12 12 For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 5 CMY 210 Datasheet ________________________________________________________________________________________________________ General description and notes The CMY 210 is an all port single ended general purpose Up- and Down-Converter. It combines small conversion losses and excellent intermodulation characteristics with a low demand of LO- and DC-power. The internal level controlled LO-Buffer enables a good performance over a wide LO level range. The internal mixers principle with one port RF and IF requires a frequency separation at pin 1 and 6 respectively. Note 1: Best performance with lowest conversion loss is achieved when each circuit or device for the frequency separation meets the following requirements: Input Filter: Throughpass for the signal to be mixed; reflection of the mixed signal and the harmonics of both. Output Filter: Throughpass for the mixed signal and reflection of the signal to be mixed and the harmonics of both. The impedance for the reflecting frequency range of each filter toward the ports 1 and 6 should be as high as possible. In the simplest case a series- and a parallel- resonator circuit will meet these requirements but also others as appropriate drop in filters or micro stripline elements can be used. The two branches with filters should meet immediately at the package leads of the port 1 and 6. Parasitic capacitances at these ports must be kept as small as possible. The mixer also can be driven with a source- and load impedance different to 50Ω, but performance will degrade at larger deviations. Note 2: The LO-Buffer needs an external inductor L4 at port 4; the value of inductance depends on the LO frequency. It is tuned for minimum Iop consumption into port 4. At lower LO frequencies it can be reduced by an additional capacitor C5. Note 3: The LO Input impedance at Port 3 can be matched with a series inductor. It also can be tuned for a minimum current Iop into port 4. C3 is a DC blocking capacitor. Since the input impedance of port 3 can be slightly negative, the source reflection coefficient should be kept below 0.8 ( Z0 = 50 Ω ). The Conversion Noise Figure Fssb is corresponding with the value of Conversion Loss Lc. The LO signal must be clean of noise and spurious at the frequencies fLO ± f IF. For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 6 CMY 210 Datasheet ________________________________________________________________________________________________________ Electrical Characteristics (cont) Operating Current Iop = f (PLO) VDD = 3V fLO = Parameter Conversion Loss Lc = f (PLO) VDD = 3V; f IF = 120MHz fLO = Parameter 10 20 Iop Lc 18 9 16 8 mA 14 dB 7 2.5GHz 6 12 10 8 2.5GHz 5 2.0 4 1.5 6 3 1.0 0.5 4 2.0 1.5 2 1 2 0 0 -10 -8 -6 -4 -2 0 2 4 6 8 dBm 10 -10 -8 -6 -4 -2 0 PLO 2 4 6 8 dBm Conversion Loss Lc = f (VDD) PLO = 0dBm fLO = 1500MHz; fIF = 120MHz 10 PLO Third Order IP3 IP3in = f (PLO) Pin = 2 x -3dBm; f IF = 40/45MHz VDD = 3V; fLO = Parameter; 10 40 Lc IP3in 9 8 dB 30 dBm 7 6 25 0,5 5 4 20 1,5 2,0 3 2 15 2.5GHz 1 0 10 0 1 2 3 4 5 6 7 V 8 9 10 -10 -8 -6 -4 VDD For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 -2 0 2 dBm 4 6 8 10 PLO 7 CMY 210 Datasheet ________________________________________________________________________________________________________ Electrical Characteristics (cont) Operating Current Iop = f (VDD) PLO = 0dBm fLO = 1500MHz LO-Leakage at Port 1, 6 PLO1,6 = f (fLO) PLO = 0dBm VDD = 3V 0 20 Iop PLO1,6 18 -2 16 -4 mA 14 dBm -6 12 -8 10 -10 8 -12 6 -14 4 -16 2 -18 0 -20 0 1 2 3 4 5 6 7 V 8 9 10 0 0.5 1.0 VDD For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 1.5 GHz 2.0 2.5 fLO 8 CMY 210 Datasheet ________________________________________________________________________________________________________ Semiconductor Device Outline MW-6 Dim. A A1 A2 b b1 c D E |e| |e1| HE LE a q min. nom. max. 1.1 0.1 1.0 Gradient Remark max 10° 2°...30° 1 0.3 0.6 0.08 2.8 1.2 0.15 3.0 1.4 0.95 1.9 2.6 0.6 1. Applicable on all case top sides For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 9 CMY 210 Datasheet ________________________________________________________________________________________________________ Part Marking Part Orientation on Reel Ordering Information Type Marking Ordering code (tape and reel) Package 1) CMY210 210 CMY210 MW-6 Additional Information This part is compliant with RoHS directive (Restrictions on the Use of Certain Hazardous Substances in Electrical and Electronic Equipment). The part is rated Moisture Sensitivity Level 1 at 260°C per JEDEC standard IPC/JEDEC J-STD-020. ESD: Electrostatic discharge sensitive device. Observe handling Precautions. For latest specifications, additional product information, worldwide sales and distribution locations, and information about TriQuint: Web: www.triquint.com Tel: (503) 615-9000 Email: [email protected] Fax: (503) 615-8902 For technical questions and additional information on specific applications: Email: [email protected] The information provided herein is believed to be reliable; TriQuint assumes no liability for inaccuracies or omissions. TriQuint assumes no responsibility for the use of this information, and all such information shall be entirely at the user's own risk. Prices and specifications are subject to change without notice. No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. TriQuint does not authorize or warrant any TriQuint product for use in life-support devices and/or systems. Copyright © 2005 TriQuint Semiconductor, Inc. All rights reserved. For additional information and latest specifications, see our website: www.triquint.com Revision E, September 12, 2006 10