ATF-2189 High Linearity Mode [1] Enhancement Pseudomorphic HEMT in SOT 89 Package Data Sheet Description Avago Technologies s ATF-2189 is a single-voltage high linearity, low noise E-pHEMT FET packaged in a low cost surface mount SOT89 package. The device is ideal as a medium-power, high-linearity amplifier. Its operating frequency range is from MHz to 6 GHz. ATF-2189 is ideally suited for Cellular/PCS and WCDMA wireless infrastructure, WLAN, WLL and MMDS application, and general purpose discrete E-pHEMT amplifiers which require medium power and high linearity. All devices are % RF and DC tested. 1. Enhancement mode technology employs a single positive Vgs, eliminating the need of negative gate voltage associated with conventional depletion mode devices. 2. Refer to reliability datasheet for detailed MTTF data 3. Conform to JEDEC reference outline MO229 for DRP-N 4. Linearity Figure of Merit (LFOM) is OIP3 divided by DC bias power Pin Connections and Package Marking 2GX #1 #2 #3 RFin GND RFout Top View #3 #2 #1 RFout GND RFin Bottom View Package marking provides orientation and identification: 2G = Device Code x = Month code indicates the month of manufacture. Features Single voltage operation High Linearity and P1dB Low Noise Figure Excellent uniformity in product specifications SOT 89 standard package Point MTTF > years [2] MSL-2 and lead-free Tape-and-Reel packaging option available Specifications 2 GH, 4.V, 28 ma (Typ.) 42 dbm Output IP3 27 dbm Output Power at 1dB gain compression 1. db Noise Figure 16. db Gain % PAE at P1dB LFOM [3] 12. db Applications Front-end LNA Q2 and Q3, Driver or Pre-driver Amplifier for Cellular/PCS and WCDMA wireless infrastructure Driver Amplifier for WLAN, WLL/RLL and MMDS applications General purpose discrete E-pHEMT for other high linearity applications
ATF-2189 Absolute Maximum Ratings [1] Absolute Symbol Parameter Units Maximum V ds Drain Source Voltage [2] V 7 V gs Gate Source Voltage [2] V - to 1. V gd Gate Drain Voltage [2] V - to 1. I ds Drain Current [2] ma I gs Gate Current ma 46 P diss Total Power Dissipation [3] W 1. P in max. RF Input Power dbm +27 Thermal Resistance [2,4] θ ch-b = 2 C/W 1. Operation of this device above any one of these parameters may cause permanent damage. 2. Assuming DC quiescent conditions. 3. Board (package belly) temperature T B is C. Derate 19. mw/ C for T B > 72 C. 4. Channel-to-board thermal resistance measured using C Liquid Crystal Measurement method. T ch Channel Temperature C T stg Storage Temperature C -6 to ATF-2189 Electrical Specifications T A = C, DC bias for RF parameters is Vds = 4.V and Ids = ma unless otherwise specified. Symbol Parameters and Test Conditions Units Min. Typ. Max. Vgs Operational Gate Voltage Vds = 4.V, Ids = ma V.62 Vth Threshold Voltage Vds = 4.V, Ids = 16 ma V.28 Ids Drain to Source Current Vds = 4.V, Vgs = V μa.8 Gm Transconductance Vds = 4.V, Gm = ΔIds/ΔVgs; mmho ΔVgs = Vgs1 Vgs2 Vgs1 =.V, Vgs2 =.V Igss Gate Leakage Current Vds = V, Vgs = - μa -..49 NF Noise Figure f = 2 GHz db 1. f = 9 MHz db 1. G Gain [1] f = 2 GHz db.8 16. 17.8 f = 9 MHz db 16. OIP3 Output 3 rd Order Intercept Point [1] f = 2 GHz dbm 38. 42. f = 9 MHz dbm 42. P1dB Output 1dB Compressed [1] f = 2 GHz dbm. 27. f = 9 MHz dbm 27.2 PAE Power Added Efficiency f = 2 GHz % 4.. f = 9 MHz %. NF Noise Figure f=9 MHz db 1. f=2. GHz db 1. f=2.4 GHz db 1.6 G Gain [1] f=9 MHz db 16. f=2. GHz db.8 16. 17.8 f=2.4 GHz db 13. OIP3 Output 3rd Order Intercept Point [1] f=9 MHz dbm 42. f=2. GHz dbm 38. 42. f=2.4 GHz dbm 41. P1dB Output 1dB Compressed [1] f=9 MHz dbm 27.2 f=2. GHz dbm. 27. f=2.4 GHz dbm 26. continued on next page 2
Symbol Parameters and Test Conditions Units Min. Typ. Max. PAE Power Added Efficiency f=9 MHz %. f=2. GHz % 4.. f=2.4 GHz % 2. ACLR Adjacent Channel Leakage Offset BW = MHz dbc -8. Power Ratio [1,2] Offset BW = MHz dbc -66. 1. Measurements at 2 GHz obtained using production test board described in Figure 1. 2. ACLR test spec is based on 3GPP TS.1 V.3.1 (2-6) - Test Model 1 - Active Channels: PCCPCH + SCH + CPICH + PICH + SCCPCH + 64 DPCH (SF=128) - Freq = 2 MHz - Pin = -8 dbm - Channel Integrate Bandwidth = 3.84 MHz Input Input Matching Circuit Γ_mag=.76 Γ_ang=-131.3 DUT Output Matching Circuit Γ_mag=.32 Γ_ang=-176.6 Output Figure 1. Block diagram of the 2 GHz production test board used for NF, Gain, OIP3, P1dB, PAE and ACLR measurements. This circuit achieves a trade-off between optimal OIP3, P1dB and VSWR. Circuit losses have been de-embedded from actual measurements. Product Consistency Distribution Charts [1,2] Stdev=.3 Stdev=. 1 1 FREQUENCY 9 6 3 Std +3 Std FREQUENCY 9 6 3 Std +3 Std 41. 42 42. 43 43. Figure 2. OIP3 @ 2 GHz, 4.V/ ma. LSL = 38. dbm, Nominal = 42.4 dbm. 26. 26.7 27. 27.7 28. P1dB (dbm) Figure 3. P1dB @ 2 GHz, 4.V, ma. LSL =. dbm, Nominal = 27.1 dbm. Stdev=.16 Stdev=. 1 1 3 FREQUENCY 9 6 3 Std +3 Std. 16 16. 17 GAIN (dbm) Figure 4. Gain @ 2 GHz, 4.V, ma. LSL =.8 dbm, Nominal = 16.1 dbm, USL = 17.8 db. FREQUENCY 9 6 3 Std +3 Std 1 1. 1. 1.7 2 NF (dbm) Figure. NF @ 2 GHz, 4.V, ma. Nominal = 1. dbm. 1. Distribution data sample size is samples taken from 3 different wafers. Future wafers allocated to this product may have nominal values anywhere between the upper and lower limits. 2. Measurements are made on production test board, which represents a trade-off between optimal OIP3, P1dB and VSWR. Circuit losses have been de-embedded from actual measurements.
Gamma Load and Source at Optimum OIP3 and P1dB Tuning Conditions The device s optimum OIP3 and P1dB measurements were determined using a Maury Load Pull System at 4.V, ma quiesent bias. Typical Gammas at Optimum OIP3 [1] Freq Gamma Source Gamma Load OIP3 Gain P1dB PAE (GHz) Mag Ang (deg) Mag Ang (deg) (dbm) (db) (dbm) (%).9.711-132.82.6444-7.38 42. 16. 27.2 49.7 2..777-131.31.3236-176. 42..7 26.8 4.9 2.4.76-128.49.266-8.9 41. 13.6 26. 49. 3.9.7432-94.91.41-98.27 4..8 27.3 49.1 Typical Gammas at Optimum P1dB [1] Freq Gamma Source Gamma Load OIP3 Gain P1dB PAE (GHz) Mag Ang (deg) Mag Ang (deg) (dbm) (db) (dbm) (%).9.7786 139.82.494-177.76 38.6 17.3 28.4 8.3 2..72-168.4.6981-16.37 37..8 29. 48.6 2.4.7117-161.4.6624-9.44 37.3 12. 29.3 48.2 3.9.3379 -.92.61-126.28 37. 9.1 28. 46.2 Note: 1. Typical describes additional product performance information that is not covered by the product warranty. 6.8V 4.7V.6V.V. 1 2 3 4 6 7 Vds (V) Figure 6. Typical IV Curve. 4
ATF-2189 Typical Performance Curves (at C unless specified otherwise) Tuned for Optimal OIP3 at Vd = 4.V, Ids = ma. 4 4 4 4 4 4 3 3 3 4.V 4.V 4.V 3 4 Figure 7. OIP3 vs. Ids and Vds at 9 MHz. 3 4 Figure 8. OIP3 vs. Ids and Vds at 2 GHz. 3 4 Figure 9. OIP3 vs. Ids and Vds at 3.9 GHz. 19 18 17 19 18 17 13 12 GAIN (db) 16 GAIN (db) 16 GAIN (db) 11 13 4.V 13 4.V 9 8 4.V 12 3 4 Figure. Small Signal Gain vs. Ids and Vds at 9 MHz. 12 3 4 Figure 11. Small Signal Gain vs. Ids and Vds at 2 GHz. 7 3 4 Figure 12. Small Signal Gain vs. Ids and Vds at 3.9 GHz. 7 7 7 Gain_ Pout_ PAE_ 6 4 Gain_ Pout_ PAE_ 6 4 Gain_4.V Pout_4.V PAE_4.V 6 4 - -6-2 2 6 Figure 13. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 9 MHz. - -6-2 2 6 Figure. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 9 MHz. - -6-2 2 6 Figure. Small Signal Gain/Pout/PAE vs. Pin at Vds = 4.V and Frequency = 9 MHz. Note: Bias current for the above charts are quiescent conditions. Actual level may increase depending on amount of RF drive.
ATF-2189 Typical Performance Curves (at C unless specified otherwise), continued Tuned for Optimal OIP3 at Vd = 4.V, Ids = ma. 8 8 8 Gain_ Pout_ PAE_ 7 6 4 Gain_ Pout_ PAE_ 7 6 4 Gain_4.V Pout_4.V PAE_4.V 7 6 4 - -6-2 2 6 18 Figure 16. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 2 GHz. - -6-2 2 6 18 Figure 17. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 2 GHz. - -6-2 2 6 18 Figure 18. Small Signal Gain/Pout/PAE vs. Pin at Vds = 4.V and Frequency = 2 GHz. 8 6 6 Gain_ Pout_ PAE_ 7 6 4 Gain_ Pout_ PAE_ 4 Gain_4.V Pout_4.V PAE_4.V 4 - -6-2 2 6 18 Figure 19. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 3.9 GHz. - -6-2 2 6 18 Figure. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 3.9 GHz. - -6-2 2 6 18 Figure 21. Small Signal Gain/Pout/PAE vs. Pin at Vds = 4.V and Frequency = 3.9 GHz. Note: Bias current for the above charts are quiescent conditions. Actual level may increase depending on amount of RF drive. 6
ATF-2189 Typical Performance Curves, continued Tuned for Optimal OIP3 at Vd = 4.V, Ids = ma, Over Temperature and Frequency 46 18 44 16 42 4 38 36-4 C C 8 C GAIN (db) 12 8-4 C C 8 C 34. 1 1. 2 2. 3 3. 4 Figure 22. OIP3 vs. Temperature and Frequency at optimum OIP3. 6. 1 1. 2 2. 3 3. 4 Figure 23. Gain vs. Temperature and Frequency at optimum OIP3. 28 6 27. 27 P1dB (dbm) 26. 26. -4 C C 8 C 4 4 3-4 C C 8 C. 1 1. 2 2. 3 3. 4 Figure 24. P1dB vs. Temperature and Frequency at optimum OIP3.. 1 1. 2 2. 3 3. 4 Figure. PAE vs. Temperature and Frequency at optimum OIP3. Note: Bias current for the above charts are quiescent conditions. Actual level may increase depending on amount of RF drive. 7
ATF-2189 Typical Performance Curves, (at C unless specified otherwise) Tuned for Optimal P1dB at Vd = 4.V, Ids = ma. 4 4 4 4 4 4 3 3 3 4.V 4.V 4.V 3 4 Figure 26. OIP3 vs Ids and Vds at 9 MHz. 3 4 Figure 27. OIP3 vs. Ids and Vds at 2 GHz. 3 4 Figure 28. OIP3 vs Ids and Vds at 3.9 GHz. 19 17 17 17 13 13 4.V GAIN (db) 13 GAIN (db) 11 GAIN (db) 11 11 9 4.V 9 7 4.V 9 7 7 3 4 Figure 29. Small Signal Gain vs. Ids and Vds at 9 MHz. 3 4 Figure. Small Signal Gain vs. Ids and Vds at 2 GHz. 3 4 Figure 31. Small Signal Gain vs. Ids and Vds at 3.9 GHz. 3 7 3 7 3 7 Gain_ Pout_ PAE_ 6 4 Gain_ Pout_ PAE_ 6 4 Gain_4.V Pout_4.V PAE_4.V 6 4 - -6-2 2 6 Figure 32. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 9 MHz. - -6-2 2 6 Figure 33. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 9 MHz. - -6-2 2 6 Figure 34. Small Signal Gain/Pout/PAE vs. Pin at Vds = 4.V and Frequency = 9 MHz. Note: Bias current for the above charts are quiescent conditions. Actual level may increase depending on amount of RF drive. 8
ATF-2189 Typical Performance Curves (at C unless specified otherwise), continued Tuned for Optimal P1dB at Vd = 4.V, Ids = ma. 3 6 3 6 3 6 Gain_ Pout_ PAE_ 4 Gain_ Pout_ PAE_ 4 Gain_4.V Pout_4.V PAE_4.V 4 - -6-2 2 6 18 Figure 3. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 2 GHz. - -6-2 2 6 18 Figure 36. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 2 GHz. - -6-2 2 6 18 Figure 37. Small Signal Gain/Pout/PAE vs. Pin at Vds = 4.V and Frequency = 2 GHz. 3 7 3 7 3 7 Gain_ Pout_ PAE_ 6 4 Gain_ Pout_ PAE_ 6 4 Gain_4.V Pout_4.V PAE_4.V 6 4-8 -4 4 8 12 16 24 Figure 38. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 3.9 GHz. -8-4 4 8 12 16 24 Figure 39. Small Signal Gain/Pout/PAE vs. Pin at Vds = and Frequency = 3.9 GHz. -8-4 4 8 12 16 24 Figure 4. Small Signal Gain/Pout/PAE vs. Pin at Vds = 4.V and Frequency = 3.9 GHz. Note: Bias current for the above charts are quiescent conditions. Actual level may increase depending on amount of RF drive. 9
ATF-2189 Typical Performance Curves, continued Tuned for Optimal P1dB at Vd = 4.V, Ids = ma, Over Temperature and Frequency. 4 18 38 16 36 34 32-4 C C 8 C GAIN (db) 12 8-4 C C 8 C 28. 1 1. 2 2. 3 3. 4 Figure 41. OIP3 vs. Temperature and Frequency at optimum P1dB. 6. 1 1. 2 2. 3 3. 4 Figure 42. Gain vs. Temperature and Frequency at optimum P1dB. 6 29. 29 P1dB (dbm) 28. 28 27. -4 C C 8 C 4 4 3-4 C C 8 C 27. 1 1. 2 2. 3 3. 4 Figure 43. P1dB vs. Temperature and Frequency at optimum P1dB.. 1 1. 2 2. 3 3. 4 Figure 44. PAE vs. Temperature and Frequency at optimum P1dB. Note: Bias current for the above charts are quiescent conditions. Actual level may increase depending on amount of RF drive.
ATF-2189 Typical Performance Curves (at C unless specified otherwise), continued Tuned for Optimal OIP3 at Vd = 4.V, Ids = ma. GAIN (db) 17 16 13 12 3.V 11 4.V 4.V 3 4 Figure 4. OIP3 vs. Ids and Vds at 2.4 GHz. 4 4 3 3.V 4.V 4.V 3 4 Figure 46. Small Signal Gain vs. Ids and Vds at 2.4 GHz. 6 6 Gain_ Pout_ PAE_ 4 Gain_ Pout_ PAE_ 4 - -6-2 2 6 18 Figure 47. Small Signal Gain/Pout/PAE vs. Pin at Vds and Freq = 2.4 GHz. - -6-2 2 6 18 Figure 48. Small Signal Gain/Pout/PAE vs. Pin at Vds and Freq = 2.4 GHz. Gain_4.V Pout_4.V PAE_4.V 6 4 - -6-2 2 6 18 Figure 49. Small Signal Gain/Pout/PAE vs. Pin at Vds 4.V and Freq = 2.4 GHz. Note: Bias current for the above charts are quiescent conditions. Actual level may increase depending on amount of RF drive. 11
ATF-2189 Typical Scattering and Noise Parameters at C, V DS = 4.V, I DS = 28 ma Freq S11 S21 S12 S22 MSG/MAG (GHz) Mag. Ang. (db) Mag. Ang. (db) Mag. Ang. Mag. Ang. db.1.44-91.7 31.93 39.2 4.2-39.17.11 2.6.289-99.7 3..2.74-128. 29.23 28.943 122.7-3.39.17 4.4.397-1.4 32.31.3.777-6.6 26.78 21.823 9.6-33.98. 33.2.446 -.8.38.4.813-8.4 24.74 17.7.6-33..22 28.6.47 -.3 28.9..86-171. 21.7 12.238 93.9-33.98. 26.1.1-17.8 27.87.6.866-176.8.26.3 89.3-33.6.21.4.9-174. 26.91.7.872 178.8 19. 8.913 8.4-33.6.21.1.62-177. 26.28.8.874 17.1 17.92 7.866 81.8-33..22..64 179.8.3.9.876 171.6 16.96 7. 78.4-32.77.23..64 177.4 24.86 1..88 168.4 16.8 6.366 7.3-32.4.24..63 17.2 24.24 1..881 4. 12.74 4.333 61. -31.6.28 24.2.8 16. 21.9 2..882 1.6.39 3.9 47. -29.63.33 21..49 6. 18.26 2..879 128.6 8.63 2.72 34.1-28.18.39 16.7.42 7.4 16. 3..874 1.1 7.31 2.3. -27.26.43 9.6.43 138.9.47 3..882.8 6.39 2.87 9.7-26.92.4 3.3.6 1.4 13.83 4..889 96..36 1.83-1.2-26.6.47-3.1.78 121.8 13.9..93 77.9 2.83 1.38-22.8 -.98. -.7.613 4.8 11.24 6..918 9.3 -.7.918-44. -.41.4-28.4.648 87.7 8.1 7..948 43.4-3.31.683-63.8-26.2. -39.9.687 74.6 8. 8..96 31.6 -.68. -81.4-26.74.46-1.6.729 61. 7.41 9..941 23.4-8..389-96.9-28.18.39-63.8.773 47.8 4.33..946. -.29.6-112. -29.63.33-8.6.8 36. 3.2 11..937 3.1-12.11.248-128.9-32.77.23-113.1.8 26.9 2.11 12..9-3.8-13.68.7-3.7-37.72.13-4.6.843 16.9 -.19 13..91 -.1 -.7.164-163.9-37.8. 6.3.842 7.7.27..948-19.8-17.79.129-172.6-37.72.13 1..849 1.1-2.38..939-21.2-18.6.118 179.7-41.94.8 6.4.879-4.4-2.87 16..948-24.7-18.94.113 171.7-46.2. 71.8.876-8.4-2.64 17..947-33. -17.99.126 7.7-38.42.12 123..884-13.3-1.7 18..93-4.1-17..139. -33.98. 1..89-21.3-3.66 Freq Fmin Gamma Opt Rn/ Ga GHz db Mag Ang db. 1.4.74-17..23 21.63 1. 1.6.76-162.6. 18.91 2. 1.9.727-137.. 16. 3. 2..763-112.8. 12.97 4. 2.46.84-91.9.27 11.3. 2.79.8-68.9.61 9.62 6. 3.9.896-1..81 8.46 7. 3.39.923-38.6 1.2 7.62 8. 3.69.9-31. 1.42 6. 1. F min values at 2 GHz and higher are based on measurements while the F min below 2 GHz have been extrapolated. The F min values are based on a set of 16 noise figure measurements made at 16 different impedances using an ATN NP test system. From these measurements a true Fmin is calculated. Refer to the noise parameter application section for more information. 2. S and noise parameters are measured on a microstrip line made on. inch thick alumina carrier. The input reference plane is at the end of the gate lead. The output reference plane is at the end of the drain lead. MSG/MAG & S21 2 (db) 4 - - MSG S21 MAG - 2 4 6 8 12 16 18 Figure. MSG/MAG & S21 2 vs. Frequency at 4.V/28 ma. 12
ATF-2189 Typical Scattering and Noise Parameters at C, V DS = 4.V, I DS = ma Freq S11 S21 S12 S22 MSG/MAG (GHz) Mag. Ang. (db) Mag. Ang. (db) Mag. Ang. Mag. Ang. db.1.848-84.4 33.8 47.72 136. -37.8. 1.6.36-4.6 3.33.2.86-124.7.1 31.649 1.6-34.42.19 3.9.442-136.7 32.22.3.863-4.9 27.16 22.811 2.9-33..22 28.7.473-1.3.16.4.868-7.3 24.94 17.66 9.1-32.77.23 24.7.487-9.9 28.8..882-17.8 21.81 12.3 89.4-33.6.21 22..62-173.9 27.68.6.88-176.3.27.3 8. -33.6.21 22.2.67-177.2 26.91.7.886 179.2 18.98 8.894 82. -33..22 22.1.68-179.8 26.7.8.886 17.4 17.88 7.831 78.8-32.77.23 22.1.68 177.7.32.9.88 171.9 16.91 7.7 7.8-32.4.24 22.3.67 17.6 24.6 1..887 168.6 16.1 6.3 72.9-32.4.24 22.4.66 173.6 24.21 1..886 4.7 12.6 4.291 9.3 -.7.29 22.1.6 164.3 21.7 2..886 1.7.29 3.271 46.3-29.37.34 19.7.49.6 18.69 2..881 128.7 8.2 2.668 33.1-28.18.39..43 6.6 16.11 3..879 116.3 7.28 2.312.4-27.38.43 8.7.48 138.1.68 3..88 6.8 6.33 2.73 9. -27.1.4 2..64 129.6 13.97 4..891 97.4.27 1.83-1.4-26.6.47-3.8.8 121. 13...93 78.4 2.66 1.38-23.2 -.98. -16.3.613 4. 11.8 6..9 9. -1..881-4. -.3.4-28.8.64 86.9 8. 7..948 43.4-3.44.673-64.1-26.2. -4..686 74.4 8.4 8..96 31.6 -.78. -81.8-26.74.46-2.4.729 6.9 7.37 9..941 23.4-8.34.383-97. -28.18.39-64.2.772 47.7 4...94. -.4.2-112. -29.63.33-8.8.8 36. 3.3 11..938 3. -12.32.242-129.2-33..22-113.9.826 26.8 1.99 12..9-3.7-13.89.2-4.1-38.42.12-6..843 16.9 -.42 13..93 -.1 -.86.161-164. -37.72.13 98.9.843 7.7.22..946-19.8-17.92.127-172.6-39.17.11 49.2.849 1. -2.67..939-21.2-18.64.117 178.8-43..7 72.1.877-4. -2.97 16..948-24.7-19.17.1 17.6-44.44.6 76..874-8.4-2.92 17..947-33.1-18.13.124 7.2-38.42.12 119.6.883-13.2-1.28 18..9-4.1-17.27.137.4-33.98. 1.7.89-21.3-3.92 Freq Fmin Gamma Opt Rn/ Ga GHz db Mag Ang db..92.49 177.1. 19.38 1. 1.2.48-169.1. 17.2 2. 1.21.62-1.8.8.64 3. 1.41.7-1.6.12 12.74 4. 1.9.772-93.6.23 11.. 1.81.841-69.9.4 9.72 6. 2.1.891-2.2.7 8.62 7. 2.21.931-39.1.98 7.78 8. 2.41.96-31. 1.33 6.72 MSG/MAG & S21 2 (db) 4 - - MSG S21 MAG 1. F min values at 2 GHz and higher are based on measurements while the F min below 2 GHz have been extrapolated. The F min values are based on a set of 16 noise figure measurements made at 16 different impedances using an ATN NP test system. From these measurements a true Fmin is calculated. Refer to the noise parameter application section for more information. 2. S and noise parameters are measured on a microstrip line made on. inch thick alumina carrier. The input reference plane is at the end of the gate lead. The output reference plane is at the end of the drain lead. - 2 4 6 8 12 16 18 Figure 1. MSG/MAG & S21 2 vs. Frequency at 4.V/ ma. 13
ATF-2189 Typical Scattering and Noise Parameters at C, V DS = 4.V, I DS = 1 ma Freq S11 S21 S12 S22 MSG/MAG (GHz) Mag. Ang. (db) Mag. Ang. (db) Mag. Ang. Mag. Ang. db.1.926-8.9 33.47 47.17 13.8-3.92.16 1.6.389-96. 34.7.2.891-121. 29.88 31.192 1.3-33..22 34.6.447-131.4 31.2.3.882-2. 27.3 22.47 2.7-32.4. 26.7.471-7.6 29.3.4.879 -.4 24.79 17.36 94.8-31.7.26 22.2.482-7. 28...88-169.7 21.67 12.1 88.9-32.77.23 19.7.1-172. 27.22.6.886-17.4.13. 8. -32.4.24 19.. -176. 26.26.7.886-18. 18.83 8.743 81.6-32.4.24 18.6.7-178.8.61.8.886 176.1 17.72 7.69 78.4-32.4. 18..7 178.7 24.88.9.88 172. 16.76 6.883 7.3-31.7.26 18.4. 176. 24.23 1..887 169.3.86 6.9 72.4-31.7.26 18.3.4 174.4 23.78 1..884.1 12.49 4.212 8.8 -.46. 17.8.48 16.1 21.47 2..884 2.1.13 3.2 4.7-29.12.3.6.38 6.3 19.17 2..88 129.1 8.36 2.618 32. -27.96.4 11.2.32 7.4 16.16 3..87 1. 7.3 2.246 18.9-27.8.44 4.9.32 139..43 3..882 6.2 6. 2.18 8.1-26.8.46-1.1.49 1. 13.76 4..889 96.8.6 1.791-2.8-26.4.47-7.1.67 122. 12.99..93 78.1 2.2 1.337-24. -26.4. -19..63.1 11.6 6..917 9.4-1.9.882-46.2 -.6.3-31..638 88.1 8.23 7..947 43. -3.64.68-6. -26..49-42.2.681 7.1 7.89 8..99 31.7-6..1-83.3-26.74.46-3.9.7 61.6 7.19 9..941 23.4-8.64.37-98.9-28.4.38-6.8.77 48.2 4...946.1 -.69.292-1.3-29.63.33-82.9.8 36.9 3.26 11..936 3.1-12.4.236-131.4-33..22-116.4.826 27.2 1.71 12..9-3.7 -.24.194-6. -37.72.13-9.1.843 17.2 -.74 13..91 -.9-16..4-166.9-37.72.13 4.3.843 8. -.3..948-19.8-18.34.121-17.3-39.17.11 6.9.8 1.2-2.88..937-21.1-19.2.112 176.1-4.92.9 79..877-4.2-3.46 16..949-24. -19.66.4 167.9-43..7 74.4.878-8.2-3.21 17..947-32.9-18.6.118 4.7-37.72.13 117.9.887-13.1-1.6 18..96-4.1-17.79.129 138.1-33.6.21 111.8.862-21.1-4.11 Freq Fmin Gamma Opt Rn/ Ga GHz db Mag Ang db..67.263 166.7. 19.36 1..76.361-177.3.8 17.64 2..9.24-6.8.6.4 3. 1.13.62-118.4.12 12.27 4. 1..741-9.3..83. 1..826-7.9. 9.62 6. 1.68.887-2.9.4 8.48 7. 1.86.939-39.7.69 7.8 8. 1.88.989-31.8.97 4. MSG/MAG & S21 2 (db) 4 - - MSG S21 MAG 1. F min values at 2 GHz and higher are based on measurements while the F min below 2 GHz have been extrapolated. The F min values are based on a set of 16 noise figure measurements made at 16 different impedances using an ATN NP test system. From these measurements a true Fmin is calculated. Refer to the noise parameter application section for more information. 2. S and noise parameters are measured on a microstrip line made on. inch thick alumina carrier. The input reference plane is at the end of the gate lead. The output reference plane is at the end of the drain lead. - 2 4 6 8 12 16 18 Figure 2. MSG/MAG & S21 2 vs. Frequency at 4.V/1 ma.
ATF-2189 Typical Scattering and Noise Parameters at C, V DS = 4.V, I DS = ma Freq S11 S21 S12 S22 MSG/MAG (GHz) Mag. Ang. (db) Mag. Ang. (db) Mag. Ang. Mag. Ang. db.1.866-84.2 33.69 48.364 13.7-37.8. 1.3.366-6. 3.38.2.86-124..8 31.913 1.3-33.98. 3.7.41-138. 32.3.3.868-4.8 27.22 22.964 2.7-33..22 28.6.483-2.3.19.4.87-7.3 24.98 17.748 94.9-32.77.23 24..498-16.7 28.87..884-17.8 21.8 12.369 89.3-33.6.21 22.6.72-174.3 27.7.6.886-176.3..36 8.4-33.6.21 22.3.77-177. 26.93.7.887 179.2 19.1 8.926 82. -33..22 22.1.79 179.8 26.8.8.887 17.4 17.91 7.862 78.8-32.77.23 22.3.79 177.4.34.9.886 171.9 16.94 7.33 7.8-32.4.24 22.4.78 17.2 24.67 1..888 168.7 16. 6.344 72.9-32.4.24 22.6.77 173.2 24.22 1..886 4.7 12.68 4.7 9. -.7.29 22.3.7 164. 21.72 2..88 1.7.33 3.284 46. -29.37.34 19.7.6.1 18.68 2..881 128.7 8.7 2.681 33.3-28.18.39..4 6.1 16.18 3..868 113.6 7.16 2.28 18.8-26.94.4 7..49 137.6.17 3..876 4. 6.24 2.1 8.3-26.66.46 1.3.66 129.1 13. 4..884 9..21 1.823-2.2-26.39.48-4.9.84 1.6 12.84..91 77.3 2.7 1.36-23.3 -.88.1-17.3.618 3.7 11.6 6..917 9.2 -.84.98-44.3 -.4.4-29.7.63 86.7 8.44 7..947 43.4-3.38.678-63.3-26.2. -4.8.691 73.8 8.2 8..96 31.6 -.73.17-8.8-26.74.46-2.8.732 6.3 7.39 9..941 23.4-8.27.386-96.1-28.18.39-64.6.774 47.2 4.27..947.1 -.34.4-111.3-29.9.32-8.9.87 36.1 3.7 11..938 3. -12.18.246-128. -33..22-1.7.826 26. 2.13 12..9-3.7-13.8.3-2.4-38.42.12-6.1.844 16.7 -.36 13..94 -. -.76.163-162.4-37.72.13.7.843 7.4.47..948-19.9-17.79.129-171. -39.17.11 49.4.849.8-2.37..937-21.1-18.49.119-178.9-43..7 72.7.876-4.6-2.98 16..949-24.6-18.86.1 173. -44.44.6 78..873-8.6-2.4 17..947-33. -17.86.128 8.9-38.42.12 119.1.881-13.3-1.6 18..92-4.1-17..138 1. -33.98. 116.4.86-21.4-3.8 Freq Fmin Gamma Opt Rn/ Ga GHz db Mag Ang db..61.434 17.. 19.42 1..7.49-17.4.9 17.66 2. 1.3.9-2.6.8.68 3. 1..689-116..11 12.74 4. 1.6.763-93.9.19 11.11. 1.86.837-7.1. 9.71 6. 2..887-2.4.7 8.6 7. 2.42.918-39.2.9 7.89 8. 2.7.929-31.4 1.34 6.79 1. F min values at 2 GHz and higher are based on measurements while the F min below 2 GHz have been extrapolated. The F min values are based on a set of 16 noise figure measurements made at 16 different impedances using an ATN NP test system. From these measurements a true Fmin is calculated. Refer to the noise parameter application section for more information. 2. S and noise parameters are measured on a microstrip line made on. inch thick alumina carrier. The input reference plane is at the end of the gate lead. The output reference plane is at the end of the drain lead. MSG/MAG & S21 2 (db) 4 - - MSG S21 MAG - 2 4 6 8 12 16 18 Figure 3. MSG/MAG & S21 2 vs. Frequency at 4.V/ ma.
ATF-2189 Typical Scattering and Noise Parameters at C, V DS = 3.V, I DS = ma Freq S11 S21 S12 S22 MSG/MAG (GHz) Mag. Ang. (db) Mag. Ang. (db) Mag. Ang. Mag. Ang. db.1.88-81.4 33.44 46.976 136. -3.92.16 3.2.374-6.9 34.68.2.882-121.9 29.97 31.21 1.1-33..22 3.2.488-138.1 31.6.3.88-3. 27.17 22.842 3.3-32.4.24 26.7.29-2.9 29.79.4.886-6.1 24.96 17.691 9.3-32.4. 22.1.4-161.6 28...893-17.1 21.77 12.7 89.6-33..22..6-174.8 27.46.6.894-17.8.22.9 8.7-32.77.23 19.6.618-178.2 26.49.7.893 179.6 18.93 8.842 82.3-32.77.23 19.7.619 179.1.8.8.892 17.6 17.83 7.786 79.1-32.4.24 19.9.618 176.6.11.9.891 172.1 16.86 6.967 76.1-32.4.24.2.617 174.4 24.63 1..893 168.8.96 6.281 73.3-32.4...616 172.3 24. 1..889 4.6 12.6 4.26 6. -.7.29 21.2.68 162.8 21.68 2..887 1.6.26 3.8 47.2-29.37.34 19.3.97 3.7 18.87 2..882 128.6 8. 2.66 34.2-27.96.4.6.91 4. 16. 3..869 113. 7. 2.264 19.8-26.74.46 6.9.8 13.8.22 3..877 4.4 6.18 2.37 9. -26..47.6.6 127.3 13.9 4..88 9.4.16 1.811 -.9-26.27.49 -.7.616 118.8 12.87..91 77.2 2.66 1.38-21.6 -.82.1-18.4.647 1.7 11.7 6..916 9.1 -.87.94-42.2 -.39.4-31..678 84.7 8.4 7..947 43.2-3.36.679-6.8-26.2. -42.3.711 71.9 8.6 8..96 31. -.68. -77.8-26.74.46-4.2.747 8.6 7.42 9..941 23.2-8.18.39-92.9-28.18.39-66.1.78 4.7 4.41..94 13.9 -..9-7.4-29.9.32-82.6.813 34.8 3.7 11..937 2.9-12.4. -124.1-33..22-116.2.8.3 2.23 12..9-4. -13.6.9-137.8-38.42.12-8.8.84.6 -.8 13..93 -.3 -..167-7.2-37.72.13.1.843 6..64..947 -.2-17.46.134-16.2-39.17.11.2.848 -.1-2...939-21.6-18..123-173.2-43..7 73.3.874 -.3-2.9 16..949 -. -18.49.119 178.6-44.44.6 81.7.87-9.2-2.23 17..948-33.4-17.39.13 164. -37.72.13 121.3.876 -.1 -.8 18..92-4.7-16.71.6 7.2-33.98. 117.2.849-22.1-3.2 Freq Fmin Gamma Opt Rn/ Ga GHz db Mag Ang db..7.341 174.7.11 21.18 1..84.427-171.1.8 19.42 2. 1..73-3.2.6 17.13 3. 1.17.688-116.6.11.9 4. 1.32.769-94.3..99. 1..847-7.4.4 9.83 6. 1.67.93-2.6.66 8.48 7. 1.83.91-39.3.8 7.61 8. 2..996-31.6 1. 4. 1. F min values at 2 GHz and higher are based on measurements while the F min below 2 GHz have been extrapolated. The F min values are based on a set of 16 noise figure measurements made at 16 different impedances using an ATN NP test system. From these measurements a true Fmin is calculated. Refer to the noise parameter application section for more information. 2. S and noise parameters are measured on a microstrip line made on. inch thick alumina carrier. The input reference plane is at the end of the gate lead. The output reference plane is at the end of the drain lead. MSG/MAG & S21 2 (db) 4 - - MSG S21 MAG - 2 4 6 8 12 16 18 Figure 4. MSG/MAG & S21 2 vs. Frequency at 3.V/ ma. 16
Device Models, PCB Layout and Stencil Device Refer to Avago s Web Site: www.avagotech.com/view/rf SOT89 Package Dimensions D D1 D D1 POLISH E1 E OR E1 E L L S e1 e S e1 e C D2 1.6 D1.2 1.24 1.23.77 E OR 2.3 HALF ETCHING DEPTH. b b1 MATTE FINISH b POLISH A b1 Dimensions in mm Dimensions in inches Symbols Minimum Nominal Maximum Minimum Nominal Maximum A 1.4 1. 1.6..9.63 L.89 1.4 1..3.41.47 b.36.42.48..16.18 b1.41.47.3.16.18. C.38.4.43...17 D 4.4 4. 4.6.173.177.181 D1 1.4 1.6 1.7..62.69 D2 1.4 1.6 1.8..62.69 E 3.94-4.. -.167 E1 2.4 2. 2.6.94.98.2 e1 2.9 3. 3..1.118.122 S.6.7.8.26..34 e 1.4 1. 1.6.4.9.63 17
Device Orientation REEL CARRIER TAPE 2GX 2GX 2GX 2GX USER FEED DIRECTION COVER TAPE Tape Dimensions. ±. 2. ±. SEE NOTE 3 4. SEE NOTE 1 Ø 1. +.1/-. 8. Ø 1. MIN. A 1.7 ±. R.3 MAX.. ±. SEE NOTE 3 Bo 12. ±.3 Ko Ao R.3 TYP. A SECTION A - A Ao = 4.6 Bo = 4.9 Ko = 1.9 DIMENSIONS IN MM NOTES: 1. SPROCKET HOLE PITCH CUMULATIVE TOLERANCE ±.2 2. CAMBER IN COMPLIANCE WITH EIA 481 3. POCKET POSITION RELATIVE TO SPROCKET HOLE MEASURED AS TRUE POSITION OF POCKET, NOT POCKET HOLE 18
Reel Dimensions 13 Reel R LOKREEL MINNEAPOLIS USA U.S PAT 472634 ATTENTION Electrostatic Sensitive Devices Safe Handling Required R 1. 2. REF 3. REF 88 REF "A" 96. 6 PS Detail "B" 6 PS Detail "A" (MEASURED AT HUB) (MEASURED AT HUB) 8.4 +.3 -.2 11.1 MAX. Ø.2 Dimensions in mm M IN Ø 13. +. -.2 2. ±. 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 -13 Avago Technologies. All rights reserved. AV2-EN - May 23, 13