ALM-40220-BLKG

ALM-40220 2.010GHz – 2.025GHz TD-SCDMA 10 Watt High Power SPDT Switch Data Sheet Description Features Avago Technologies’ ALM-40220 is a high power SPDT switch with 10W power handling capability, high linearity performance, low insertion loss and fast switching speed through the use of Avago Technologies’ low distortion silicon pin diode technologies. ALM-40220 is specifically design for TD-SCDMA wireless infrastructure application. • Fully matched The ALM-40220 is reflective SPDT switches and having flexibility converting to absorptive mode with 50ohm load configured externally. The circuitry needs dual positive biasing control for Tx and Rx operation. • 5V operating voltage All matching components are fully integrated within the module which makes the ALM-40220 extremely easy to use. The only external parts are DC supply bypass capacitors and RF choke inductor (refers to figure 16, page 10). • MSL-3 with lead-free & halogen free The ALM-40220 is housed in a miniature 5.0 x 5.0 x 1.0 mm3 multiple-chips-on-board (MCOB) module package with 5 pin configuration pads. Component Image Ant Port 2 • Fast switching speed • Applicable in both reflective & absorptive • Match diode for consistent performance • Tape-and-Reel packaging option available Specifications • Tx band: Typical Performance at 2.01GHz – Insertion loss: 0.45dB max – Rx-Tx Isolation: 40dB typical – 60 dBm Input IP3 – 41 dBm Input Power at 0.1dB Gain Compression Applications Tx Port 1 Rx Port 3 Vc1 Vc2 Top View • High Linearity • Rx band: Typical performance at 2.01GHz – Insertion loss: 0.6dB typical – Tx-Rx Isolation: 26dB typical 5.0 x 5.0 x 1.0 mm3 5-PIN MCOB Package 40220 WWYY XXXX • High power handling capability Top View Note: Package marking provides orientation and identification “40220” = Device Part Number “WWYY” = Work week and year of manufacturer “XXXX” = Last 4 digit of assembly lot number • LNA Protection Switch for TD-SCDMA base station Attention: Observe precautions for handling electrostatic sensitive devices. ESD Machine Model = 250 V ESD Human Body Model = 850 V Refer to Avago Application Note A004R: Electrostatic Discharge, Damage and Control. Absolute Maximum Rating [2] TA=25oC Thermal Resistance [3] θjc = 12.2°C/W Symbol Parameter Units Absolute Max. Vctrl 1,max Device Control Voltage 1 V 7 (Vc1 = 5V, Vc2 = 0V, Ic1 = 50mA,Tc = 85°C) Ictrl 1,max Device Control Current 1 mA 60 Vctrl 2,max Device Control Voltage 2 V 7 Ictrl 2,max Device Control Current 2 mA 60 Pin,max CW RF Input Power dBm 42 Notes: 2. Operation of this device in excess of any of these limits may cause permanent damage. 3. Thermal resistance measured using Infra-Red measurement technique. 4. This is limited by maximum Vctrl 1 and Pin. Pdiss Total Power Dissipation [4] W 4.25 Tj, max Junction Temperature oC 150 TSTG Storage Temperature oC -65 to 150 Device Operating Truth Table [5] Vctrl 1 Vctrl 2 Tx – Ant Port Ant – Rx Port 5V 0V Low Insertion Loss High Isolation 0V 5V Isolation Low Insertion Loss Notes: 5. Any stated other than described in the truth table may put the switch into an undefined state.  10 Watt SPDT Switch for TD-SCDMA (2.01GHz – 2.025GHz) Application Electrical Specifications [6] Tx To Ant Port TA = 25°C, Vctrl 1 =5V, Vctrl 2 =0V, RF performance at 2.01GHz, measured on demo board (see Figure 16) unless otherwise specified. Symbol Parameter and Test Condition Units Min. Typ. Max. Ictrl 1 Vctrl 1 current mA 35 39 45 Ictrl 2 Vctrl 2 current mA -45 -39 -35 S11[7] Input Return Loss, 50Ω source dB 25 30 – S21[7] Tx-Ant Insertion Loss dB – 0.42 0.45 S31[7] Tx-Rx Isolation dB 35 40 – S32[7] Ant-Rx Isolation dB 35 40 – IIP3[8] Input Third Order Intercept Point dBm – 60 – IP0.1dB[9] Input Power at 0.1dB Gain Compression dBm – 41 – Switching[10] Switching Speed [t-RISE] uS – 0.3 – Switching[10] Switching Speed [t-FALL] uS – 0.5 – Ant To Rx Port TA = 25°C, Vctrl 1 =0V, Vctrl 2 =5V, RF performance at 2.01GHz, measured on demo board (see Figure 16) unless otherwise specified. Symbol Parameter and Test Condition Units Min. Typ. Max. Ictrl 1 Vctrl 1 current mA -50 -47 -40 Ictrl 2 Vctrl 2 current mA 40 47 50 S33[7] Input Return Loss, 50Ω source dB 25 27 – S32[7] Insertion Loss dB – 0.6 0.7 S31[7] Tx-Rx Isolation dB 24 27 – S21[7] Ant-Tx Isolation dB 17 27 – IIP3[8] Input Third Order Intercept Point dBm – 50 – IP0.1dB[9] Input Power at 0.1dB Gain Compression dBm – 28 – Switching[10] Switching Speed [t-RISE] uS – 0.2 – Switching[10] Switching Speed [t-FALL] uS – 0.5 – Notes: 6. Measurements at 2.01GHz obtained using demo board described in Figure 15 and 16. 7. Port connection: Port 1 = Tx, port 2 = Ant and port 3 = Rx. 8. IIP3 test condition: FRF1 - FRF2 = 1.1MHz with input power of 23dBm per tone measured at worst side band. 9. IP0.1dB tested with 50% duty cycle. 10. [t-RISE]: Time for RF signal to rise from 10% to 90% of the “on” level. [t-FALL]: Time for RF signal to fall from 90% to 10% of the “off” level. 11. Use proper biasing, heat sink and de-rating to ensure maximum channel temperature is not exceeded. See absolute maximum ratings and application note (if applicable) for more details.  ALM-40220 Tx Typical S-Parameters (Vctrl 1 = 5V, Vctrl 2 = 0V, Tc = 25°C, matched 50Ω) Freq GHz S11 S11 Mag. Ang. S12 S12 Mag. Ang. S13 S13 Mag. Ang. S21 S21 Mag. Ang. S22 S22 Mag. Ang. 0.1 0.79 -111.6 0.27 0.2 0.94 0.3 0.72 S31 S31 Mag. Ang. S32 S32 Mag. Ang. S33 S33 Mag. Ang. -6.6 0.11 -24.1 0.27 -6.5 0.87 -134.4 0.09 -31.4 0.11 -24.0 0.09 -31.5 0.78 -42.1 -174.0 0.16 79.2 0.05 2.7 0.16 79.3 0.93 176.6 147.2 37.4 0.13 -135.4 0.46 37.6 0.73 146.2 0.05 -5.5 0.05 2.7 0.05 -5.5 0.65 -78.8 0.13 -139.1 0.13 -135.3 0.13 -139.1 0.24 -19.4 0.4 0.37 0.5 0.78 -173.2 0.59 -34.0 0.06 128.2 0.59 -33.9 0.48 156.1 0.08 -9.7 0.02 100.5 0.08 -9.7 0.91 173.6 0.06 127.3 0.06 128.0 0.06 127.1 0.41 1.9 144.2 0.02 121.6 0.02 100.2 0.02 121.7 0.87 -68.1 0.6 0.7 0.86 127.4 0.30 24.9 0.03 90.2 0.30 24.9 0.80 106.7 0.45 8.5 0.03 61.0 0.45 8.4 0.88 120.0 0.03 91.4 0.03 89.9 0.03 91.1 0.90 -102.3 0.81 102.0 0.03 61.8 0.03 61.1 0.03 61.8 0.90 -127.5 0.8 0.73 88.5 0.56 -8.1 0.03 35.7 0.56 0.9 0.64 71.3 0.66 -24.5 0.04 12.3 0.66 -7.9 0.73 85.5 0.03 36.7 0.03 35.7 0.03 36.7 0.90 -148.9 -24.5 0.64 70.1 0.04 13.4 0.04 12.3 0.04 13.4 0.89 -168.1 1 0.50 54.6 0.74 -43.1 0.05 -14.5 1.1 0.39 76.9 0.59 -66.8 0.07 -82.0 0.74 -43.1 0.52 56.0 0.05 -13.8 0.05 -14.5 0.05 -13.9 0.87 173.8 0.59 -66.9 0.47 69.2 0.06 -83.8 0.07 -81.9 0.06 -83.6 0.86 157.5 1.2 0.54 43.3 0.71 -57.7 1.3 0.45 23.5 0.81 -72.9 0.01 -114.9 0.71 -57.6 0.55 37.5 0.01 -74.4 0.01 -114.9 0.01 -74.4 0.86 141.7 0.01 -67.1 0.81 -72.8 0.45 18.9 0.01 -41.4 0.01 -67.1 0.01 -41.6 0.85 126.0 1.4 0.36 8.1 0.86 -87.1 1.5 0.29 -5.1 0.89 0.02 -73.0 0.86 -87.1 0.36 3.7 0.02 -54.3 0.02 -72.9 0.02 -54.5 0.84 110.7 -100.6 0.02 -84.4 0.89 -100.5 0.29 -10.3 0.02 -66.7 0.02 -84.2 0.02 -67.1 0.83 95.9 1.6 0.22 -17.1 0.91 1.7 0.16 -27.2 0.93 -113.5 0.01 -95.2 0.91 -113.4 0.22 -24.2 0.01 -77.1 0.01 -95.3 0.01 -77.3 0.82 81.0 -126.0 0.01 -102.7 0.93 -125.8 0.15 -38.9 0.01 -82.9 0.01 -102.7 0.01 -83.2 0.81 66.2 1.8 0.10 -34.8 1.9 0.06 -34.1 0.93 -138.0 0.01 -103.5 0.93 -138.0 0.10 -55.7 0.01 -81.2 0.01 -103.7 0.01 -81.3 0.80 51.6 0.94 -149.9 0.01 -90.1 0.94 -149.9 0.05 -79.0 0.01 -63.6 0.01 -89.9 0.01 -63.8 0.79 36.7 2 0.03 2.01 0.03 -4.1 0.94 -161.4 0.01 -57.2 0.94 -161.5 0.02 -145.2 0.01 -37.0 0.01 -57.2 0.01 -37.2 0.78 21.8 2.4 0.94 -162.5 0.01 -54.4 0.94 -162.6 0.02 -157.8 0.01 -35.5 0.01 -54.9 0.01 -34.9 0.78 20.3 2.02 2.03 0.03 9.1 0.94 -163.6 0.01 -52.8 0.94 -163.7 0.02 -168.8 0.01 -33.1 0.01 -53.3 0.01 -33.5 0.78 18.7 0.03 14.5 0.94 -164.8 0.01 -51.3 0.94 -164.9 0.02 -177.7 0.01 -32.0 0.01 -51.5 0.01 -31.9 0.78 17.3 2.04 0.03 21.6 0.94 -166.0 0.01 -50.0 0.94 -166.0 0.03 173.1 0.01 -30.2 0.01 -49.7 0.01 -31.1 0.78 15.7 2.05 0.03 27.5 0.94 -167.2 0.01 -48.1 0.94 -167.1 0.03 165.1 0.01 -29.8 0.01 -48.4 0.01 -29.7 0.78 14.2 2.1 0.04 45.8 0.93 -172.6 0.01 -44.1 0.93 -172.7 0.04 138.1 0.01 -27.1 0.01 -43.9 0.01 -27.3 0.78 6.5 2.5 0.13 29.8 0.91 143.9 0.04 -76.7 0.91 144.1 0.14 70.3 0.04 -56.6 0.04 -76.4 0.04 -56.6 0.74 -57.3 3 0.20 -27.2 0.88 92.2 0.08 -140.0 0.88 92.4 0.21 15.2 0.08 -114.7 0.08 -140.2 0.08 -115.0 0.74 -141.5 3.5 0.22 -86.4 0.84 41.3 0.13 155.0 0.84 41.5 0.25 -35.0 0.13 -175.2 0.12 154.9 0.13 -175.6 0.76 136.5 4 0.21 -149.3 0.80 -9.8 0.17 91.9 0.80 -9.8 0.26 -85.9 0.17 124.4 0.17 92.0 0.17 124.4 0.76 58.5 4.5 0.18 143.6 0.77 -62.4 0.21 30.2 0.76 -62.1 0.25 -137.7 0.19 65.0 0.21 30.0 0.19 64.6 0.70 -16.5 5 0.11 59.7 0.72 -118.8 0.25 -31.7 0.72 -118.9 0.20 176.4 0.8 0.25 -32.2 0.21 0.7 0.68 -95.9 5.5 0.17 -111.4 0.60 175.1 0.30 -93.2 0.60 175.1 0.16 -176.7 0.17 -62.1 0.30 -93.2 0.17 -62.2 0.62 -174.8 6 0.47 146.2 104.6 0.35 -162.3 0.31 104.4 0.48 150.3 -82.1 0.35 -162.2 0.09 -81.9 0.56 112.0 0.46 0.31 S23 S23 Mag. Ang. 0.21 0.09 12. S-parameter is measured with reference plane at SMA end launch using demo board shown in Figure 16. 13. Demo board 50Ω transmission line is CPWG with W = 23 mils, G = 18.5 mils, L = 383.7 mils, 10 mils Rogers RO4350, 0.5oz Cu. 14. Demo board SMA end launch is Johnson 142-0701-851.  ALM-40220 Rx Typical S-Parameter (Vctrl 1 = 0V, Vctrl 2 = 5V, Tc = 25ºC, matched 50Ω) Freq GHz S11 S11 Mag. Ang. S22 S22 Mag. Ang. S23 S23 Mag. Ang. S31 S31 Mag. Ang. 0.1 0.82 -109.2 0.10 78.1 0.09 -108.1 0.10 0.2 0.95 -174.3 0.10 100.5 0.01 -53.8 78.2 0.64 -92.1 0.11 -22.8 0.09 -107.9 0.11 -22.8 0.94 -45.5 100.6 0.93 -147.4 0.01 -78.9 0.01 -53.7 0.01 -79.0 0.96 -92.0 0.3 0.78 143.0 0.36 59.1 0.09 0.4 0.42 159.9 0.46 -12.0 0.35 -106.1 0.36 59.2 0.84 171.1 0.06 155.3 0.09 -106.1 0.05 155.3 0.87 -135.2 145.1 0.46 -11.9 0.57 154.5 0.33 128.7 0.35 145.1 0.33 128.7 0.56 -166.4 0.5 0.73 142.0 0.27 -37.7 0.38 72.7 0.27 -37.8 0.62 148.7 0.49 72.6 0.38 72.6 0.49 72.7 0.57 -176.7 0.6 0.78 115.2 0.24 0.7 0.74 90.9 0.30 -32.3 0.38 31.6 0.24 -32.3 0.63 131.1 0.54 40.6 0.38 31.8 0.54 40.7 0.56 161.4 -38.7 0.39 0.8 0.30 -38.8 0.59 115.7 0.58 17.7 0.39 0.8 0.58 17.7 0.51 142.1 0.8 0.67 66.5 0.35 -54.2 0.41 -27.2 0.35 -54.0 0.54 102.6 0.61 -1.5 0.41 -27.1 0.61 -1.5 0.46 126.0 0.9 0.56 1 0.39 39.1 0.39 -74.2 0.43 -55.1 0.39 -74.1 0.50 91.8 0.63 -18.1 0.43 -55.0 0.63 -18.1 0.43 112.7 3.0 0.41 -99.1 0.43 -85.6 0.41 -99.1 0.47 82.2 0.63 -32.0 0.43 -85.6 0.63 -32.0 0.41 100.5 1.1 1.2 0.14 88.5 0.28 -126.8 0.28 -117.7 0.28 -126.9 0.47 66.9 0.67 -40.5 0.28 -117.7 0.66 -40.4 0.43 81.2 0.35 -6.9 0.34 -123.6 0.33 -117.9 0.34 -123.7 0.39 55.0 0.72 -56.4 0.33 -117.9 0.72 -56.4 0.35 65.3 1.3 0.26 -68.9 0.33 -148.9 0.33 -146.6 0.33 -148.8 0.36 44.2 0.74 -68.7 0.33 -146.7 0.74 -68.7 0.32 51.0 1.4 0.23 -132.0 0.29 -171.5 0.28 -172.3 0.29 -171.4 0.32 31.0 0.78 -80.7 0.28 -172.4 0.78 -80.7 0.29 33.8 1.5 0.28 178.0 0.23 168.8 0.22 164.9 0.23 168.8 0.26 17.2 0.82 -93.4 0.22 164.9 0.82 -93.5 0.23 15.9 1.6 0.34 142.9 0.17 152.0 0.17 145.3 0.17 152.0 0.21 4.2 0.86 -106.7 0.17 145.2 0.86 -106.8 0.18 -1.7 1.7 0.39 116.1 0.13 138.6 0.13 129.1 0.13 138.5 0.15 -7.0 0.89 -120.0 0.13 128.8 0.89 -120.1 0.12 -18.0 1.8 0.42 93.9 0.09 128.6 0.09 116.2 0.09 128.6 0.09 -14.2 0.90 -133.2 0.09 115.8 0.90 -133.4 0.07 -32.7 1.9 0.45 74.3 0.06 123.3 0.06 107.0 0.06 123.3 0.04 -8.8 0.91 -146.2 0.06 106.9 0.91 -146.3 0.02 -38.5 2 0.47 56.2 0.04 123.6 0.04 101.9 0.04 123.5 0.03 55.1 0.92 -158.8 0.04 101.9 0.92 -158.9 0.02 92.7 2.01 0.47 54.5 0.04 124.0 0.04 101.7 0.04 123.9 0.03 62.0 0.91 -160.1 0.04 101.6 0.92 -160.1 0.02 95.3 2.02 0.47 52.7 0.04 124.4 0.04 101.5 0.04 124.2 0.03 67.2 0.92 -161.3 0.04 101.4 0.92 -161.4 0.03 94.7 2.03 0.47 50.9 0.03 125.0 0.04 101.2 0.03 124.9 0.03 71.5 0.92 -162.6 0.04 101.1 0.92 -162.6 0.03 94.7 2.04 0.47 49.1 0.03 125.7 0.04 101.1 0.03 125.4 0.04 76.6 0.92 -163.7 0.04 101.1 0.92 -163.9 0.03 94.4 2.05 0.47 47.5 0.03 126.2 0.04 101.1 0.03 126.3 0.04 79.3 0.92 -164.9 0.04 100.9 0.92 -165.1 0.04 92.5 2.1 0.48 38.9 0.03 130.8 0.03 101.4 0.03 131.0 0.05 86.3 0.92 -171.1 0.03 101.4 0.91 -171.2 0.05 88.8 2.5 0.46 -27.7 0.02 -133.0 0.01 -175.5 0.02 -132.9 0.16 62.8 0.90 141.7 0.01 -174.8 0.90 141.7 0.14 33.8 3 0.41 -120.1 0.10 -134.1 0.08 -165.1 0.10 -133.7 0.22 18.5 0.85 85.1 0.08 -164.9 0.85 84.9 0.19 -47.6 3.5 0.38 129.0 0.25 170.3 0.21 124.1 0.25 170.4 0.26 -28.2 0.77 29.4 0.21 124.1 0.77 29.3 0.25 -136.0 4 0.41 17.7 0.38 104.6 0.33 46.4 0.38 104.7 0.28 -76.2 0.67 -23.5 0.33 46.3 0.67 -23.5 0.33 141.0 4.5 0.44 -75.2 0.44 42.4 0.37 -27.4 0.44 42.7 0.29 -117.3 0.57 -74.6 0.37 -27.8 0.57 -74.6 0.37 66.4 5 0.49 -150.4 0.45 -17.2 0.36 -96.8 0.45 -17.4 0.35 -153.1 0.47 -126.0 0.36 -97.1 0.47 -125.8 0.38 -9.5 5.5 0.53 146.5 0.41 -73.3 0.31 -159.3 0.41 -73.5 0.49 162.6 0.32 -170.5 0.31 -159.1 0.32 -170.6 0.36 -93.9 6 0.56 88.2 0.32 -120.0 0.28 149.2 -120.2 0.62 109.1 0.27 165.1 148.8 165.0 -179.9  S12 S12 Mag. Ang. S13 S13 Mag. Ang. S21 S21 Mag. Ang. 0.10 0.32 0.28 S32 S32 Mag. Ang. 0.27 S33 S33 Mag. Ang. 0.36 ALM-40220 Tx Typical Over-Temperature Performance -26.00 -27.00 -28.00 -29.00 -30.00 -31.00 -32.00 -33.00 85C -34.00 25C -35.00 -40C -36.00 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) Figure 1. S11 (Return Loss) vs Frequency vs Temperature S22 (in dB) S11 (in dB) (Tx: Vctrl 1 = 5V, Vctrl 2 = 0V) Figure 2. S22 (Return Loss) vs Frequency vs Temperature -0.10 -0.20 S31 (in dB) S21 (in dB) -0.30 -0.40 -0.50 -0.60 85C 25C -40C -0.70 -0.80 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) -38.00 -39.00 -40.00 -41.00 -42.00 -43.00 -44.00 -45.00 85C -46.00 25C -47.00 -40C -48.00 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) Figure 4. S31 (Isolation) vs Frequency vs Temperature 65.00 44.00 64.00 43.00 63.00 42.00 62.00 P0.1dB (in dBm) IIP3 (in dBm) Figure 3. S21 (Insertion Loss) vs Frequency vs Temperature 61.00 60.00 59.00 57.00 56.00 2010 2013 2016 2019 Frequency (in MHz) Figure 5. Input IP3 vs Frequency vs Temperature 2022 41.00 40.00 39.00 38.00 85C 25C -40C 58.00  -26.00 -27.00 -28.00 -29.00 -30.00 -31.00 -32.00 -33.00 85C -34.00 25C -35.00 -40C -36.00 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) 85C 25C -40C 37.00 2025 36.00 2010 2013 2016 2019 Frequency (in MHz) Figure 6. Input P0.1dB vs Frequency vs Temperature 2022 2025 ALM-40220 Rx Typical Over-Temperature Performance -18.00 -20.00 -22.00 -24.00 -26.00 -28.00 -30.00 -32.00 -34.00 -36.00 85C -38.00 25C -40.00 -40C -42.00 -44.00 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) Figure 7. S33 (Return Loss) vs Frequency vs Temperature -18.00 -20.00 -22.00 S22 (in dB) S33 (in dB) (Rx: Vctrl 1 = 0V, Vctrl 2 = 5V) -24.00 -26.00 -28.00 -30.00 85C 25C -40C -32.00 -34.00 -36.00 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) Figure 8. S22 (Return Loss) vs Frequency vs Temperature -25.00 -0.20 -0.30 -26.00 -27.00 -0.50 S31 (in dB) S32 (in dB) -0.40 -0.60 -0.70 -0.80 85C 25C -40C -0.90 85C 25C -40C -31.00 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) Figure 10. S31 (Isolation) vs Frequency vs Temperature 32.00 31.00 30.00 P0.1dB (in dBm) IIP3 (in dBm) Figure 9. S32 (Insertion Loss) vs Frequency vs Temperature 85C 25C -40C 2013 2016 2019 Frequency (in MHz) Figure 11. Input IP3 vs Frequency vs Temperature  -29.00 -30.00 -1.00 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) 56.00 55.00 54.00 53.00 52.00 51.00 50.00 49.00 48.00 47.00 46.00 45.00 44.00 2010 -28.00 2022 29.00 28.00 27.00 26.00 85C 25C -40C 25.00 24.00 2025 23.00 2010 2013 2016 2019 Frequency (in MHz) Figure 12. Input P0.1dB vs Frequency vs Temperature 2022 2025 ALM-40220 Typical Performance (Rx: Vctrl 1 = 0V, Vctrl 2 = 5V) -0.30 -0.32 -0.34 -0.36 -0.38 -0.40 -0.42 -0.44 3V -0.46 4V -0.48 5V -0.50 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) Figure 13. Insertion loss vs Frequency Vs Vc -0.50 -0.52 -0.54 -0.56 -0.58 -0.60 -0.62 -0.64 3V -0.66 4V -0.68 5V -0.70 1990 1995 2000 2005 2010 2015 2020 2025 2030 Frequency (in MHz) Figure 14. Insertion loss vs Frequency Vs Vc Circuit Symbol Size Value Description C1 0402 1000pF Ceramic Chip Capacitor C2 0402 3.3pF Ceramic Chip Capacitor L1 0402 100nH Ceramic Chip Inductor Figure 15. Demo board application schematics and components table  S32 (in dB) S21 (in dB) (Tx: Vctrl 1 = 5V, Vctrl 2 = 0V) Demo board layout Ant Pins pointing out of the page Unit is on top 1 2 3 4 Tx Rx 8 7 6 5 Vctrl 1 – Pin 1 Gnd – Pin 2, 3 Vctrl 2 – Pin 4 Other pins are not using 1 4 8 Pin Connector Figure 16. Demo board layout diagram – Recommended PCB material is 10 mils Rogers RO4350, with FR4 backing for mechanical strength. – Suggested component values may vary according to layout and PCB material. Top View Figure 17. Package Drawing Dimensions  Side View Bottom View 4.56 4.60 4.26 2.30 2.13 1.70 1.36 1.54 0.20 0.78 4.60 1.20 4.26 0.40 sq 0.72 0.78 1.54 0.80 0.36 sq 0.82 4.56 0.82 0.72 0.80 2.00 1.30 1.30 1.04 Land Pattern Stencil Opening 4.60 4.26 1.54 1.20 1.54 1.20 0.36 sq 0.40 sq 1.70 1.36 1.70 1.36 0.80 2.00 2.26 4.34 Combined Land Pattern and Stencil Opening All dimensions are in millimeters Figure 18. PC Board and stencil design 10 0.80 2.26 4.34 1.04 Device Orientation REEL USER FEED DIRECTION CARRIER TAPE USER FEED DIRECTION 40220 WWYY XXYY TOP VIEW COVER TAPE Tape Dimensions Part Number Ordering Information Part # Qty Container ALM-40220-BLKG 100 Antistatic Bag ALM-40220-TR1G 3000 13” Reel 11 40220 WWYY XXYY 40220 WWYY XXYY END VIEW Reel Dimensions (13” reel) 65° 7.9  10.9** 8.4 +1.5* 0.0 45° R10.65 R5.2 Slot hole ‘b’ BACK 60° Ø55.0±0.5 Ø178.0±1.0 FRONT Slot hole ‘a’ Embossed Ribs Raised: 0.25mm, Width: 1.25mm Ø51.2±0.3 14.4* Max. BACK VIEW Ø20.2 (Min.) 11.90  15.40** 13.20±0.50* Recycle Symbol Ø13.1 +0.5 0.2 2.00±0.5 Detail “X” Ø100.0±0.5 Ø331.5 Max. Detail “X” Slot 5.0±0.5 BACK VIEW For product information and a complete list of distributors, please go to our web site: 18.40* Max www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright © 2005-2009 Avago Technologies. All rights reserved. AV02-1868EN - May 21, 2009