ALM-38140 50MHz - 4GHz PIN Diode Variable Attenuator Module Data Sheet Description Features Avago Technologies' ALM-38140 is a fully matched wideband variable attenuator module with high linearity performance and high dynamic range. The high dynamic range and low phase shift can be achieved with only one external inductor place between Linput and Loutput. x Fully integrated module ALM-38140 is a fully integrated solution using Avago Technologies' low distortion silicon PIN diodes housed in a miniature 3.8 x 3.8 x 1.0 mm3 MCOB (Multiple-Chips-OnBoard) package. x Low phase shift performance This variable attenuator module is easily operated with a constant voltage, Vsupply = 2.7V and a control voltage, Vcontrol = 0.8 - 5V. No external biasing components needed. Typical Performance at 1.9GHz ALM-38140 is ideal for gain control in RF amplifier circuits. x Excellent Input IP3 performance x High Input P1dB compression x Tape-and-Reel packaging option available Specifications x Attenuation : 39dB x Insertion Loss : 3.2dB x Input IP3 : 50dBm x Input P1dB : > 30dBm Applications x Broadband system applications; such as CATV, WCDMA, VSAT, WIMAX, Cellular base station. Linput Loutput Vcontrol Package Marking 38140 WWYY XXXX x High dynamic range x General purpose voltage controlled attenuator for low current applications. x Temperature compensation circuitry RF 2 GND RF 1 x Automatic Gain Control Vsupply Top View Bottom View Note: Package marking provides orientation and identification "38140" = Device Part Number "WWYY" = Work week and year of manufacture "XXXX" = Last 4 digit of assembly lot number * RF1 and RF2 can be used either as RF input or RF output as they are symmetrical. Attention: Observe precautions for handling electrostatic sensitive devices. ESD Machine Model = 300 V ESD Human Body Model = 900 V Refer to Avago Application Note A004R: Electrostatic Discharge, Damage and Control. ALM-38140 Absolute Maximum Rating [1] TA = 25C Symbol Parameter Unit Absolute Maximum Isupply, max Supply Current mA 18.0 Icontrol, max Control Current mA 33.4 Pin, max RF Input Power dBm 27dBm CW, 36dBm with 12.5% duty cycle Pdiss Total Power Dissipation W 0.3 Tj Junction Temperature C 150 Tstg Storage Temperature C -60 to 150 Thermal Resistance [2] Tjc = 106.3C/W (Vc = 1V, Vsupply = 2.7V, Tc = 85C) Notes: 1. Operation in excess of any one of these limits may result in permanent damage to the device. 2. Thermal resistance is measured from junction to case using Infra-Red method. Electrical Specifications, Vsupply = 2.7V, TA = 25C, Z0 = 50: Symbol Parameter and Test Condition Isupply Supply Current drain (Vcontrol = 1V) Frequency (MHz) Unit Min Typ Max mA - 2.5 - Icontrol Control Current drain (Vcontrol = 5V) mA - 20.5 - S21 Maximum Attenuation (Vcontrol = 1V) 900 dB - 42.0 - S21 Maximum Attenuation (Vcontrol = 1V) 1900 dB 36.0 39.0 - S21 Insertion Loss (Vcontrol = 5V) 900 dB - 2.8 - S21 Insertion Loss (Vcontrol = 5V) 1900 dB - 3.2 3.7 Dynamic Range 900 dB - 38 - Dynamic Range 1900 dB 33 36.5 - IRL Input Return Loss (Vcontrol = 5V) 1900 dB 10 14.5 - ORL Output Return Loss (Vcontrol = 5V) 1900 dB 10 13.5 - IIP3 [5] Input Third Order Intercept Point 900 dBm - 50 - IIP3 [5] Input Third Order Intercept Point 1900 dBm - 50 - IP1dB [6] Input Power at P1dB Compression (Vcontrol = 5V) 900 dBm - 32 - IP1dB [6] Input Power at P1dB Compression (Vcontrol = 5V) 1900 dBm - 33 - Phase Shift (Vcontrol = 1V) 1900 degrees - 10.5 - Notes: 4. Data above is obtained using demo board shown in Figure 32 and 33. 5. 2-tone IIP3 test condition: FRF1, FRF2 = 1.1MHz separation, Input power = 22dBm 6. IP1dB measured with 12.5% duty cycle. 7. The performance above obtained with phase compensation inductor value based on the table 1 below. 8. 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. 2 ALM-38140 Typical Broadband S-Parameters (Vsupply = 2.7V, Vctrl = 1V, Tc = 25C, matched 50:) Freq GHz S11 Mag. Ang. S21 Mag. Ang. S12 Mag. dB. 0.05 0.14 -17.21 0.1 0.14 0.2 0.3 Ang. S22 Mag. dB. -175.1 0.01 -43.21 dB. 43.6 0.01 -43.10 dB. Ang. 43.5 0.13 -17.64 -17.23 176.3 0.01 -41.98 19.5 0.01 -173.8 -42.00 19.5 0.13 -17.68 177.8 0.14 -17.32 165.5 0.13 -17.50 155.6 0.01 -41.46 7.1 0.01 -41.12 1.3 0.01 -41.54 7.7 0.13 -17.75 167.6 0.01 -41.13 1.2 0.13 -17.85 159.5 0.4 0.13 -17.62 0.5 0.13 -17.81 147.0 0.01 -40.73 139.2 0.01 -40.38 -3.6 0.01 -40.74 -3.6 0.13 -18.03 152.3 -8.1 0.01 -40.40 -8.1 0.12 -18.30 145.8 0.6 0.12 0.7 0.12 -18.06 131.5 0.01 -18.35 123.2 0.01 -40.03 -12.4 0.01 -39.97 -12.4 0.12 -18.59 139.2 -39.56 -16.4 0.01 -39.62 -16.6 0.11 -18.88 0.8 0.12 -18.55 115.4 0.01 132.4 -39.19 -21.2 0.01 -39.19 -20.9 0.11 -19.18 125.8 0.9 0.11 -18.88 108.4 0.01 -38.68 -25.3 0.01 -38.68 -25.3 0.11 -19.51 119.5 1 0.11 -19.38 100.6 0.01 -38.13 -30.4 0.01 -38.13 -30.4 0.10 -19.88 113.6 1.1 0.10 -19.78 92.2 0.01 -37.61 -35.7 0.01 -37.59 -35.5 0.10 -20.30 108.2 1.2 0.10 -20.11 85.2 0.01 -37.07 -41.1 0.01 -37.04 -41.3 0.09 -20.84 103.5 1.3 0.09 -20.71 79.3 0.01 -36.49 -47.3 0.01 -36.50 -47.0 0.08 -21.52 99.0 1.4 0.08 -21.61 72.7 0.02 -35.98 -53.1 0.02 -35.96 -53.2 0.08 -22.27 93.8 1.5 0.08 -22.49 64.6 0.02 -35.40 -59.7 0.02 -35.40 -59.6 0.07 -22.87 88.5 1.6 0.07 -23.16 57.3 0.02 -34.90 -66.0 0.02 -34.93 -66.2 0.07 -23.24 85.0 1.7 0.06 -23.92 53.0 0.02 -34.35 -73.0 0.02 -34.38 -72.8 0.07 -23.64 85.0 1.8 0.05 -25.27 50.7 0.02 -33.85 -80.0 0.02 -33.86 -79.8 0.06 -24.35 86.7 1.9 0.04 -27.06 47.5 0.02 -33.36 -86.9 0.02 -33.35 -87.0 0.05 -25.24 87.2 2 0.04 -28.95 43.5 0.02 -32.86 -94.2 0.02 -32.90 -94.2 0.05 -25.74 85.4 2.1 0.03 -30.32 42.8 0.02 -32.45 -101.1 0.02 -32.44 -101.0 0.05 -25.50 84.1 2.2 0.03 -31.50 52.5 0.03 -31.86 -108.7 0.03 -31.86 -108.7 0.06 -24.85 85.9 2.3 0.02 -32.14 72.7 0.03 -31.44 -116.5 0.03 -31.41 -116.4 0.06 -24.16 88.5 2.4 0.03 -31.61 93.4 0.03 -30.97 -124.2 0.03 -30.96 -124.0 0.07 -23.60 89.0 2.5 0.03 -30.43 102.9 0.03 -30.54 -131.6 0.03 -30.52 -131.6 0.07 -22.98 86.7 2.6 0.04 -28.44 101.9 0.03 -30.07 -139.7 0.03 -30.05 -139.7 0.08 -22.16 82.6 2.7 0.05 -26.30 98.6 0.03 -29.60 -146.4 0.03 -29.61 -146.5 0.09 -21.31 78.2 2.8 0.06 -24.35 96.5 0.04 -29.08 -155.1 0.04 -29.07 -155.0 0.10 -20.38 72.5 2.9 0.07 -23.06 92.8 0.04 -28.63 -163.2 0.04 -28.63 -163.1 0.11 -19.48 65.1 3 0.08 -22.00 85.2 0.04 -28.18 -171.5 0.04 -28.15 -171.5 0.12 -18.49 58.1 14.6 3.5 0.13 -17.56 41.6 0.05 -25.81 146.0 0.05 -25.80 146.0 0.18 -14.88 4 0.19 -14.61 -10.1 0.07 -23.54 101.2 0.07 -23.53 101.3 0.25 -11.88 -36.3 4.5 0.25 -12.02 -66.3 0.09 -21.00 51.4 0.09 -21.00 51.4 0.35 -9.12 -89.3 5 0.35 -9.20 -125.3 0.11 -19.02 -6.1 0.11 -19.01 -6.1 0.48 -6.34 -144.1 5.5 0.48 -6.44 176.4 0.12 -18.29 -67.2 0.12 -18.31 -67.2 0.62 -4.13 159.5 6 0.61 -4.35 120.7 0.11 -19.03 -126.7 0.11 -19.03 -126.8 0.72 -2.84 104.4 Notes: 9. S-parameter is measured with reference plane at SMA end launch using demo board shown in Figure 33. 10. Demo board 50: transmission line is CPWG with W = 23 mils, G = 18.5 mils, L = 383.7 mils, 10 mils Rogers RO4350, 0.5oz Cu. 11. Demo board SMA end launch is Johnson 142-0701-851. 12. The above performance is with board loss removed. 3 ALM-38140 Typical Broadband S-Parameters (Vsupply = 2.7V, Vctrl = 5V, Tc = 25C, matched 50:) Freq GHz S11 Mag. Ang. S21 Mag. Ang. S12 Mag. Ang. S22 Mag. dB. 0.05 0.04 -28.48 dB. 103.9 0.74 -2.64 dB 0.3 0.74 -2.62 dB. Ang. 0.2 0.03 -29.15 102.3 0.1 0.01 0.2 0.02 -36.56 153.6 0.73 -33.27 -144.2 0.73 -2.67 -7.8 0.73 -2.69 -19.2 0.73 -2.68 -7.8 0.01 -36.95 158.3 -2.69 -19.2 0.02 -33.01 -141.8 0.3 0.4 0.04 -28.98 -134.9 0.05 -25.79 -138.3 0.73 -2.72 -29.6 0.73 -2.73 -39.9 0.73 -2.72 -29.7 0.04 -28.32 -133.0 0.73 -2.73 -39.9 0.06 -25.01 0.5 0.07 -23.43 -144.4 0.73 -2.74 -135.2 -50.0 0.73 -2.76 -50.0 0.07 -22.65 -140.7 0.6 0.08 0.7 0.10 -21.61 -152.2 0.73 -20.34 -160.9 0.73 -2.77 -60.0 0.73 -2.76 -60.0 0.09 -21.00 -147.6 -2.79 -70.0 0.72 -2.79 -70.0 0.10 -19.60 -155.1 0.8 0.9 0.11 -19.11 -170.0 0.12 -18.09 -178.7 0.72 -2.83 -80.0 0.72 -2.82 -80.0 0.12 -18.40 -163.7 0.72 -2.84 -90.0 0.72 -2.84 -90.0 0.13 -17.41 -172.9 1 0.14 -17.34 1.1 0.15 -16.70 172.5 0.72 -2.87 -99.8 0.72 -2.87 -99.9 0.15 -16.64 177.7 162.8 0.72 -2.91 -109.8 0.72 -2.91 -109.8 0.16 -15.92 168.9 1.2 0.16 1.3 0.17 -16.03 152.5 0.71 -2.94 -119.6 0.71 -2.94 -119.7 0.17 -15.25 160.4 -15.42 143.4 0.71 -2.97 -129.5 0.71 -2.97 -129.5 0.18 -14.69 1.4 151.5 0.18 -15.06 134.9 0.71 -3.01 -139.4 0.71 -3.00 -139.4 0.19 -14.32 142.5 1.5 0.18 -14.82 126.0 0.71 -3.03 -149.2 0.70 -3.04 -149.2 0.20 -14.03 133.0 1.6 0.19 -14.43 116.3 0.70 -3.07 -159.1 0.70 -3.05 -159.1 0.21 -13.63 123.6 1.7 0.20 -14.02 106.8 0.70 -3.11 -168.9 0.70 -3.11 -168.9 0.22 -13.21 115.0 1.8 0.21 -13.76 98.1 0.70 -3.15 -178.7 0.70 -3.15 -178.7 0.22 -12.96 106.6 1.9 0.21 -13.72 89.7 0.69 -3.17 171.5 0.69 -3.17 171.5 0.23 -12.93 97.7 2 0.21 -13.70 80.8 0.69 -3.19 161.6 0.69 -3.19 161.5 0.23 -12.87 88.4 2.1 0.21 -13.56 71.4 0.69 -3.23 151.6 0.69 -3.24 151.7 0.23 -12.66 79.1 2.2 0.21 -13.38 62.5 0.69 -3.28 141.8 0.69 -3.27 141.8 0.24 -12.43 70.3 2.3 0.21 -13.36 54.1 0.68 -3.29 131.9 0.68 -3.32 131.9 0.24 -12.38 61.8 2.4 0.21 -13.53 45.7 0.68 -3.33 122.1 0.68 -3.34 122.1 0.24 -12.48 53.2 2.5 0.21 -13.67 36.3 0.68 -3.36 112.1 0.68 -3.36 112.1 0.24 -12.48 44.4 2.6 0.21 -13.71 27.0 0.68 -3.40 102.2 0.67 -3.42 102.2 0.24 -12.43 35.4 2.7 0.21 -13.68 18.4 0.67 -3.43 92.2 0.67 -3.44 92.2 0.24 -12.41 26.3 2.8 0.20 -13.79 9.8 0.67 -3.47 82.2 0.67 -3.47 82.2 0.24 -12.40 17.2 2.9 0.20 -13.98 0.3 0.67 -3.53 72.1 0.67 -3.53 72.2 0.24 -12.34 8.3 3 0.20 -14.04 -9.9 0.66 -3.59 62.1 0.66 -3.59 62.1 0.24 -12.24 -0.2 3.5 0.19 -14.42 -57.0 0.64 -3.89 11.1 0.64 -3.89 11.0 0.26 -11.64 -45.1 4 0.18 -14.77 -104.2 0.61 -4.28 -41.3 0.61 -4.28 -41.3 0.29 -10.79 -90.3 4.5 0.17 -15.15 -148.6 0.57 -4.82 -94.7 0.57 -4.82 -94.7 0.32 -9.91 -135.4 5 0.18 -14.73 175.9 0.53 -5.45 -150.7 0.53 -5.44 -150.6 0.37 -8.62 -176.9 5.5 0.23 -12.76 151.6 0.46 -6.66 148.9 0.46 -6.67 149.0 0.46 -6.75 142.6 6 0.38 -8.42 118.0 0.35 -9.23 85.5 0.35 -9.24 85.5 0.58 -4.76 98.5 4 ALM-38140 Typical Broadband Performance at 25C (Vsupply = 2.7V, Vctrl = 1V - 5V) 0.00 Vctrl=5.0V Vctrl=4.0V Vctrl=3.0V Vctrl=2.0V Vctrl=1.5V Vctrl=1.2V Vctrl=1.0V S21 (dB) -10.00 -20.00 -30.00 -40.00 -50.00 0 1000 2000 3000 Frequency (MHz) 4000 Figure 1. S21 Vs Frequency as function of Vctrl ALM-38140 Typical Over-Temperature Broadband Performance (Vsupply = 2.7V, Vctrl = 1V & 5V) 0 0 25C 85C -40C -10 S11 (dB) S11 (dB) -10 -20 -30 -40 0 1000 2000 Frequency (MHz) 3000 4000 Figure 2. S11 (Return Loss) at Vctrl =1V vs Frequency vs Temperature 0 0 0 -10 -10 -20 25C 85C -40C -30 1000 2000 Frequency (MHz) 3000 -20 25C 85C -40C -30 -40 4000 Figure 3. S11 (Return Loss) at Vctrl =5V vs Frequency vs Temperature S22 (dB) S22 (dB) 25C 85C -40C -30 -40 -40 0 1000 2000 Frequency (MHz) 3000 4000 Figure 4. S22 (Return Loss) at Vctrl=1V vs Frequency vs Temperature 5 -20 0 1000 2000 Frequency (MHz) 3000 4000 Figure 5. S22 (Return Loss) at Vctrl=5V vs Frequency vs Temperature ALM-38140 Typical Over-Temperature Broadband Performance (Vsupply = 2.7 V, Vctrl = 0.8 V & 5 V) 0.0000 0.00 1000.00 2000.00 3000.00 4000.00 S21 (dB) -20.0000 -40.0000 -40C 25C 85C -60.0000 -80.0000 Frequency (MHz) Figure 6. S21 at Vctrl=0.8V (Attenuation) vs Frequency vs Temperature 0.00 0.00 S21 (dB) S21 (dB) -20.00 -40.00 25C 85C -40C -60.00 -3.00 -5.00 0 1000 2000 Frequency (MHz) 3000 4000 Figure 7. S21 at Vctrl=1V (Attenuation) vs Frequency vs Temperature 0 70.00 120.00 25C 85C -40C 50.00 30.00 3000 4000 100.00 25C 85C -40C 80.00 60.00 40.00 20.00 10.00 -10.00 0.00 2000 Frequency (MHz) 140.00 Phase Shift (deg) 90.00 1000 Figure 8. S21 at Vctrl=5V (Insertion Loss) vs Frequency vs Temperature 110.00 Phase Shift (deg) -2.00 -4.00 -80.00 0.00 10.00 20.00 30.00 Attenuation (dB) Figure 9. Phase shift vs Attenuation vs Temperature at 900MHz 6 25C 85C -40C -1.00 40.00 -20.00 0.00 10.00 20.00 Attenuation (dB) 30.00 Figure 10. Phase shift vs Attenuation vs Temperature at 1900MHz 40.00 ALM-38140 Typical Over-Temperature Broadband Performance (Vsupply = 2.7 V, Vctrl = 1 V & 5 V) 0.00 0.00 25C 85C -40C -10.00 -15.00 -20.00 10.00 20.00 30.00 Attenuation (dB) 40.00 10.00 20.00 Attenuation (dB) 30.00 40.00 45.00 25C 85C -40C IP1dB (dBm) 40.00 IP1dB (dBm) -20.00 Figure 12. Return loss vs Attenuation vs Temperature at 1900MHZ 45.00 35.00 30.00 25.00 25C 85C -40C 40.00 35.00 30.00 0 10 20 30 Attenuation (dB) 40 50 Figure 13. Input P1dB vs Attenuation vs Temperature at 900MHZ 0 20 30 Attenuation (dB) Figure 14. Input P1dB vs Attenuation vs Temperature at 1900MHZ 10 40 70.00 70.00 25C 85C -40C 25C 85C -40C 65.00 IIP3 (dBm) 65.00 IIP3 (dBm) -15.00 -30.00 0.00 50.00 Figure 11. Return loss vs Attenuation vs Temperature at 900MHZ 60.00 55.00 60.00 55.00 50.00 50.00 45.00 0 10 20 30 Attenuation (dB) 40 Figure 15. Input IP3 vs Attenuation vs Temperature at 900MHZ 7 -10.00 -25.00 -25.00 -30.00 0.00 25C 85C -40C -5.00 Return Loss (dB) Return Loss (dB) -5.00 50 0 10 20 Attenuation (dB) 30 Figure 16. Input IP3 vs Attenuation vs Temperature at 1900MHZ 40 ALM-38140 Typical Over-Temperature With Phase Compensation Coil Performance (Vsupply = 2.7 V, Vctrl = 1 V & 5 V) Vctrl=5.0V Vctrl=4.0V Vctrl=3.0V Vctrl=2.0V Vctrl=1.5V S21 (dB) -10.00 -20.00 Vctrl=1.2V -30.00 -40.00 Vctrl=1.0V -50.00 800 900 1000 1100 Frequency (MHz) -10.00 -20.00 Vctrl=1.2V -30.00 -40.00 2000 2100 Frequency (MHz) 2200 0.00 25C 85C -40C -5.00 -5.00 -10.00 S11 (dB) -10.00 S11 (dB) 1900 Figure 18. S21 Vs Frequency as function of Vctrl at Fc= 2GHz 0.00 -15.00 -20.00 -15.00 -20.00 -25.00 -25.00 -30.00 -30.00 -35.00 -35.00 0 500 1000 1500 2000 2500 Frequency (MHz) 3000 25C 85C -40C 0 3500 Figure 19. S11 (Return Loss) at Vctrl =1V vs Frequency vs Temperature 500 1000 1500 2000 2500 Frequency (MHz) 3000 3500 Figure 20. S11 (Return Loss) at Vctrl =5V vs Frequency vs Temperature 0.00 0.00 25C 85C -40C -5.00 -5.00 -10.00 S22 (dB) -10.00 S22 (dB) Vctrl=1.0V -50.00 1800 1200 Figure 17. S21 Vs Frequency as function of Vctrl at Fc= 1GHz -15.00 -20.00 -15.00 -20.00 -25.00 -25.00 -30.00 -30.00 25C 85C -40C -35.00 -35.00 0 500 1000 1500 2000 2500 Frequency (MHz) 3000 3500 Figure 21. S22 (Return Loss) at Vctrl =1V vs Frequency vs Temperature 8 Vctrl=5.0V Vctrl=4.0V Vctrl=3.0V Vctrl=2.0V Vctrl=1.5V 0.00 S21 (dB) 0.00 0 500 1000 1500 2000 2500 Frequency (MHz) 3000 Figure 22. S22 (Return Loss) at Vctrl =5V vs Frequency vs Temperature 3500 ALM-38140 Typical Over-Temperature With Phase Compensation Coil Performance (Vsupply = 2.7 V, Vctrl = 1 V & 5 V) 0.00 25C 85C -40C -10.00 S21 (dB) S21 (dB) -20.00 -30.00 -40.00 -50.00 -60.00 0 500 1000 1500 2000 2500 Frequency (MHz) 3000 Phase Shift (deg) Phase Shift (deg) -20.00 25C 85C -40C 1500 2000 2500 Frequency (MHz) 3000 3500 20.00 25C 85C -40C 0.00 -20.00 10.00 20.00 30.00 Attenuation (dB) 40.00 0.00 50.00 10.00 20.00 30.00 40.00 50.00 Attenuation (dB) Figure 25. Phase shift vs Attenuation vs Temperature at 900MHz Figure 26. Phase shift vs Attenuation vs Temperature at 1900MHz 0.00 0.00 25C 85C -40C -5.00 -10.00 25C 85C -40C -5.00 Return Loss (dB) Return Loss (dB) 1000 40.00 0.00 -15.00 -20.00 -25.00 -10.00 -15.00 -20.00 -25.00 -30.00 -30.00 0.00 10.00 20.00 30.00 Attenuation (dB) 40.00 Figure 27. Return loss vs Attenuation vs Temperature at 900MHZ 9 500 Figure 24. S21 at Vctrl=5V (Insertion Loss) vs Frequency vs Temperature 20.00 -60.00 0.00 25C 85C -40C 0 3500 Figure 23. S21 at Vctrl=1V (Attenuation) vs Frequency vs Temperature -40.00 0.00 -0.50 -1.00 -1.50 -2.00 -2.50 -3.00 -3.50 -4.00 -4.50 50.00 0.00 10.00 20.00 30.00 40.00 Attenuation (dB) Figure 28. Return loss vs Attenuation vs Temperature at 1900MHZ 50.00 ALM-38140 Typical Over-Temperature With Phase Compensation Coil Performance (Vsupply = 2.7 V, Vctrl = 1 V & 5 V) 50.00 50.00 25C 85C -40C 45.00 IP1dB (dBm) IP1dB (dBm) 45.00 40.00 35.00 35.00 25.00 25.00 0 10 20 30 Attenuation (dB) 40 70.00 0 50 Figure 29. Input P1dB vs Attenuation vs Temperature at 900MHZ 10 20 30 Attenuation (dB) 40 50 Figure 30. Input P1dB vs Attenuation vs Temperature at 1900MHZ 70.00 25C 85C -40C 65.00 25C 85C -40C 65.00 60.00 IIP3 (dBm) IIP3 (dBm) 40.00 30.00 30.00 55.00 50.00 60.00 55.00 50.00 45.00 0 10 20 30 Attenuation (dB) 40 Figure 31. Input IP3 vs Attenuation vs Temperature at 900MHZ 10 25C 85C -40C 50 45.00 0 10 20 30 Attenuation (dB) 40 Figure 32. Input IP3 vs Attenuation vs Temperature at 1900MHZ 50 Application Circuit Vcontrol (1-5V) Phase Compensation Coil 6 RF In 5 4 1 3 RF Out Bias Circuitry ALM-38140 2 Table 1. Recommended phase compensation coil values for common frequency bands Vsupply (2.7V) Figure 33. Simplified Schematic The phase compensation coil connected at Pin 5 (Linput) and Pin 6 (Loutput) to further increase maximum attenuation and to improve phase shift. 11 Frequency Ltune Value Size Manufacturer Part No. 50MHz 3.9uH 0805 Coilcraft 0805LS-392XJLC 500MHz 220nH 0603 Toko LL2012-FR22K 1000MHz 180nH 0603 Coilcraft 0603HP-R18XJLW 2000MHz 62nH 0402 Murata LQW15AN62NG00 2500MHz 36nH 0402 Coilcraft 0402HP-36NXJLW 3500MHz 22nH 0402 Murata LQW15AN22NG00 Demo board Layout 0.6000 0.7000 1.1552 1.1552 0.4000 0.4000 DC Pin Configuration Pin 1 Pin 2, 3 Pin 4 1 2 3 - Vsupply - GND - Vcontrol 4 * Dimensions in mm Figure 34. Demo board Layout Notes: 1. PCB material used is 10 mils Rogers RO4350, with FR4 backing for mechanical strength. 2. The phase compensation coil values given in Table 1 are based on the trace layout on demo board shown in Figure 33. Trace layout different from that specified in Figure 33, will require different values for the phase compensation coil. 3. Pad layout for phase compensation coil shown in Figure 33 is based on 0402 size. 12 Package Dimension Drawing 1.050.10 0.70 3.800.10 0.60 0.07 all gaps 0.60 C'fer 45x0.4 0.16 38140 WWYY XXXX 0.80-4x 0.73-4x 1.90-2x 0.40 sq-6x 1.30-4x 3.800.10 0.70 2x 1.30-2x 1.90-4x Top View Side View Note : 1. ALL DIMENSIONS ARE IN MILIMETERS 2. DIMENSIONS ARE INCLUSIVE OF PLATING 3. DIMENSIONS ARE EXCLUSIVE OF MOLD FLASH AND METAL BURR. 4. KEY: WW - WORK WEEK YY - YEAR, XXXX - LAST 4 DIGITS OF LOT NUMBER 13 Bottom View 0.10 (all edges) PC Board and stencil design (Top View) Pin 1 Orientation 0.32mm x 45 1.26-3x 3.34-2x 1.80 0.70-4x 0.68-3x 0.40sq-6x 1.80 0.75 1.78-2x 1.60-6x 1.78 0.75 1.78 1.60-6x 1.00-3x 3.60 3.48 2.52 0.70 0.70 1.80 3.60-4x 2.40 0.70 0.70 Pin 1 Orientation 0.4mm x 45 0.36sq-6x 3.34 Stencil Opening Land Pattern 3.60-4x 3.48 0.70 0.70 1.26-3x 1.00-3x 3.34-2x 3.60 1.60-6x 0.36sq-6x 0.40sq-6x 3.34 Combined Land Pattern & Stencil Opening Device Orientation REEL USER FEED DIRECTION CARRIER TAPE USER FEED DIRECTION 14 COVER TAPE 38140 WWYY XXYY 38140 WWYY XXYY TOP VIEW 38140 WWYY XXYY END VIEW Tape Dimensions Dimension List Annote Milimeter Ao 4.10 Bo 4.10 Ko 1.45 Pitch 8.00 Width 12.00 Notes: 1. Ao & Bo measured at 0.3mm above base of pocket. 2. 10 pitches cumulative tal. 0.2mm. Part Number Ordering Information Part Number No. of Devices Container ALM-38140-BLKG 100 Antistatic Bag ALM-38140-TR1G 3000 13" Reel 15 Reel Dimensions (13" reel) ESD Label (See Below) Recycle Symbol Detail `X' Embossed Line X2 90.0mm Length Lines 147.0mm away from center point Embossed `M' 5.0mm Height FRONT VIEW O20.2 (Min) 25.651.75** 25.41.0* Recycle Symbol +0.5 O13.1 -0.2 2.20.5 See Detail `X' FRONT BACK O100.00.5 O331.5 Max Detail `X' 1.0 Detail `Y' Slot 10.00.5(2x) Slot 5.00.5***(1x) 4.0 30.4* Max BACK VIEW For product information and a complete list of distributors, please go to our web site: 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 (c) 2005-2010 Avago Technologies. All rights reserved. AV02-1987EN - April 8, 2010 Detail `Y' (Slot Hole)