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  • 型号: ATF-50189-BLK
  • 制造商: Avago Technologies
  • 库位|库存: xxxx|xxxx
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ATF-50189-BLK产品简介:

ICGOO电子元器件商城为您提供ATF-50189-BLK由Avago Technologies设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 ATF-50189-BLK价格参考。Avago TechnologiesATF-50189-BLK封装/规格:晶体管 - FET,MOSFET - 射频, 射频 Mosfet E-pHEMT 4.5V 280mA 2GHz 15.5dB 29dBm SOT-89。您可以下载ATF-50189-BLK参考资料、Datasheet数据手册功能说明书,资料中有ATF-50189-BLK 详细功能的应用电路图电压和使用方法及教程。

产品参数 图文手册 常见问题
参数 数值
产品目录

分立半导体产品

描述

IC PHEMT 2GHZ 4.5V 280MA SOT-89射频JFET晶体管 Transistor GaAs High Linearity

产品分类

RF FET分离式半导体

Id-ContinuousDrainCurrent

1 A

Id-连续漏极电流

1 A

品牌

Avago Technologies US Inc.

产品手册

http://www.avagotech.com/docs/AV02-0049EN

产品图片

rohs

符合RoHS无铅 / 符合限制有害物质指令(RoHS)规范要求

产品系列

晶体管,晶体管射频,射频JFET晶体管,Avago Technologies ATF-50189-BLK-

数据手册

http://www.avagotech.com/docs/AV02-0049EN

P1dB

29 dBm

产品型号

ATF-50189-BLK

PCN组件/产地

http://www.avagotech.com/docs/V11-024-480035-0B

Pd-PowerDissipation

2.25 W

Pd-功率耗散

2.25 W

Vds-Drain-SourceBreakdownVoltage

7 V

Vds-漏源极击穿电压

7 V

Vgs-Gate-SourceBreakdownVoltage

- 5 V to 0.8 V

Vgs-栅源极击穿电压

- 5 V to 0.8 V

产品

RF JFET

产品目录页面

点击此处下载产品Datasheet

产品种类

射频JFET晶体管

供应商器件封装

SOT-89

其它名称

516-1867
ATF-50189-BLK-ND
ATF50189BLK

功率-输出

29dBm

功率耗散

2.25 W

包装

散装

商标

Avago Technologies

噪声系数

1.1dB

增益

15.5dB

安装风格

SMD/SMT

封装

Bulk

封装/外壳

TO-243AA

封装/箱体

SOT-89

工厂包装数量

100

技术

GaAs

晶体管类型

pHEMT FET

最大工作温度

+ 150 C

最大漏极/栅极电压

- 5 V to + 1 V

最小工作温度

- 65 C

标准包装

100

正向跨导-最小值

2294 mmho

漏极连续电流

1 A

漏源电压VDS

7 V

电压-测试

4.5V

电压-额定

7V

电流-测试

280mA

类型

GaAs EpHEMT

配置

Single

闸/源击穿电压

- 5 V to 0.8 V

频率

2GHz

额定电流

1A

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PDF Datasheet 数据手册内容提取

ATF-50189 Enhancement Mode[1] Pseudomorphic HEMT in SOT 89 Package Data Sheet Description Features Avago Technologies’s ATF-50189 is a high linearity, medi- • High Linearity and P1dB um power, low noise E-pHEMT FET packaged in a low cost • Low Noise Figure surface mount SOT89[3] package. The combination of low • Excellent uniformity in product specifications noise figure and high output IP3 at the same bias point makes it ideal for receiver and transmitter application. Its • SOT 89 standard package operating frequency range is from 400 MHz to 3.9 GHz. • Point MTTF > 300 years [2] The ATF-50189 is ideally suited for Cellular/PCS and WCD- • MSL-2 and lead-free MA wireless infrastructure, WLAN, WLL and MMDS appli- • Tape-and-Reel packaging option available cation, and general purpose discrete E-pHEMT amplifiers which require high linearity and power. All devices are Specifications 100% RF and DC tested. 2 GH, 4.5V, 280 mA (Typ.) Notes: • 45 dBm Output IP3 1. Enhancement mode technology employs a single positive Vgs, • 29 dBm Output Power at 1dB gain compression eliminating the need of negative gate voltage associated with conventional depletion mode devices. • 1.1 dB Noise Figure 2. Refer to reliability datasheet for detailed MTTF data 3. Conform to JEDEC reference outline MO229 for DRP-N • 15.5 dB Gain 4. Linearity Figure of Merit (LFOM) is OIP3 divided by DC bias power • 62% PAE at P1dB • LFOM[4] 14 dB Pin Connections and Package Marking Applications • Front-end LNA Q2 and Q3, Driver or Pre-driver Amplifier for Cellular/PCS and WCDMA wireless infrastructure 0GX • Driver Amplifier for WLAN, WLL/RLL and MMDS applications • General purpose discrete E-pHEMT for other high #1 #2 #3 #3 #2 #1 linearity applications RFin GND RFout RFout GND RFin Top View Bottom View Attention: Observe precautions for Notes: handling electrostatic sensitive devices. Package marking provides orientation and identification: ESD Machine Model (Class A) “0G” = Device Code ESD Human Body Model (Class 1C) “x” = Month code indicates the month of manufacture. Refer to Avago Application Note A004R: Electrostatic Discharge Damage and Control.

ATF-50189 Absolute Maximum Ratings[1] Absolute Thermal Resistance[2,4] Symbol Parameter Units Maximum θch_b = 29°C/W V Drain–Source Voltage[2] V 7 Notes: DS 1. Operation of this device above any one of V Gate–Source Voltage[2] V -5 to 0.8 GS these parameters may cause permanent V Gate Drain Voltage[2] V -5 to 1 damage. GD 2. Assumes DC quiescent conditions. I Drain Current[2] A 1 DS 3. Board (package belly) temperature TB is 25°C. IGS Gate Current mA 12 Derate 35mW/°C for TB > 85°C. 4. Channel-to-board thermal resistance P Total Power Dissipation[3] W 2.25 diss measured using 150°C Liquid Crystal P RF Input Power dBm 30 Measurement method. in T Channel Temperature °C 150 CH T Storage Temperature °C -65 to 150 STG ATF-50189 Electrical Specifications T = 25°C, DC bias for RF parameters is Vds = 4.5V and Ids = 280 mA unless otherwise specified. A Symbol Parameter and Test Condition Units Min. Typ. Max. Vgs Operational Gate Voltage Vds = 4.5V, Ids = 280 mA V 0.37 0.53 0.72 Vth Threshold Voltage Vds = 4.5V, Ids = 32 mA V — 0.38 — Idss Saturated Drain Current Vds = 4.5V, Vgs = 0V μA — 4.1 — Gm Transconductance Vds = 4.5V, Gm = ΔIds/ΔVgs; mmho 175 2294 — ΔVgs = Vgs1 – Vgs2 Vgs1 = 0.55V, Vgs2 = 0.5V Igss Gate Leakage Current Vds = 0V, Vgs = -4.5V μA — 13.8 60 NF Noise Figure[1] f = 2 GHz dB — 1.1 — f = 900 MHz dB — 1.0 — G Gain[1] f = 2 GHz dB 14 15.5 17 f = 900 MHz dB — 21.5 — OIP3 Output 3rd Order Intercept Point[1,2] f = 2 GHz dBm 43 45 — f = 900 MHz dBm — 44 — P1dB Output Power at 1dB Compression Point[1] f = 2 GHz dBm 27 29 — f = 900 MHz dBm — 28.5 — PAE Power Added Efficiency[1] at P1dB f = 2 GHz % 45 62 — f = 900 MHz % — 49 — ACLR Adjacent Channel Leakage Offset BW = 5 MHz dBc — 60.0 — Power Ratio[1,3] Offset BW = 10 MHz dBc — 67.8 — Notes: 1. Measurements at 2GHz obtained using production test board described in Figure 1 while measurement at 900 MHz obtained from double stub tuners. 2. i ) 2GHz OIP3 test condition: F1 = 2GHz, F2 = 2.005GHz and Pin = -5dBm per tone. ii ) 900MHz OIP3 test condition: F1 = 900 MHz, F2 = 905 MHz and Pin = -5 dBm per tone. 3. ACLR test spec is based on 3GPP TS 25.141 V5.3.1 (2002-06) - Test Model 1 - Active Channels: PCCPCH + SCH + CPICH + PICH + SCCPCH + 64 DPCH (SF=128) - Freq = 2140 MHz - Pin = -5 dBm - Channel Integrate Bandwidth = 3.84 MHz 22

Input Output Matching Matching Circuit Circuit Input DUT Output Γ_mag=0.80 Γ_mag=0.62 Γ_ang=-136.6° Γ_ang=-163° (0.9 dB loss) (0.9 dB loss) 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] 150 180 Stdev=0.37 Stdev=0.20 150 120 120 CY 90 CY UEN –3 Std +3 Std UEN 90 –3 Std +3 Std Q Q FRE 60 FRE 60 30 30 0 0 43 44 45 46 47 28 28.5 29 29.5 30 OIP3 (dBm) P1dB (dBm) Figure 2. OIP3 @ 2 GHz, 4.5V/280 mA. Figure 3. P1dB @ 2 GHz, 4.5V/280 mA. LSL = 43.0, Nominal = 45.4 LSL = 27.0, Nominal = 29.0 300 150 Stdev=0.16 Stdev=1.94 250 120 200 CY CY 90 UEN 150 –3 Std +3 Std UEN –3 Std +3 Std Q Q FRE FRE 60 100 30 50 0 0 14 14.5 15 15.5 16 16.5 17 54 58 62 66 70 GAIN (dB) PAE (%) Figure 4. Gain @ 2 GHz, 4.5V/200 mA. Figure 5. PAE at P1dB @ 2 GHz, 4.5V/200 mA. LSL = 14.0, Nominal = 15.5, USL = 17.0 LSL = 45.0, Nominal = 62.0 Notes: 1. Distribution data sample size is 500 samples taken from 5 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. 33

Gamma Load and Source at Optimum OIP3 and P1dB Tuning Conditions The device’s optimum OIP3 and P1dB measurements were determined using a load pull system at 4.5V, 280 mA quiesent bias. Typical Gammas at Optimum OIP3[1] Optimum OIP3 Freq Gamma Source Gamma Load OIP3 Gain P1dB PAE (GHz) Mag Ang (deg) Mag Ang (deg) (dBm) (dB) (dBm) (%) 0.45 0.47 121.7 0.76 -175.1 41.0 22.0 27.5 39.0 0.9 0.81 -157.5 0.72 -178.1 44.2 21.6 28.3 49.2 1.8 0.82 -110.4 0.62 -135.1 46.5 16.0 28.7 61.3 2 0.85 -106.4 0.64 -127.4 46.2 15.1 29.0 63.0 2.4 0.82 -88.8 0.67 -113.6 45.6 13.0 28.9 55.0 3.5 0.77 -49.6 0.59 -79.5 44.0 8.6 26.9 35.0 Typical Gammas at Optimum P1dB[1] Optimum P1dB Freq Gamma Source Gamma Load OIP3 Gain P1dB PAE (GHz) Mag Ang (deg) Mag Ang (deg) (dBm) (dB) (dBm) (%) 0.45 0.52 151.2 0.71 -177.5 39.8 23.9 28.5 44.8 0.9 0.79 -160.1 0.67 -158.3 42.8 20.1 30.4 56 1.8 0.83 -112.5 0.72 -131.2 44.2 15.9 30.3 60.3 2 0.82 -102.1 0.69 -117.5 44.8 14.9 30.2 58.6 2.4 0.78 -91.2 0.77 -105.3 44.44 12.5 30.2 54.1 3.5 0.78 -49.7 0.72 -74.6 43.7 8.7 27.3 32 Note: 1. Typical describes additional product performance information that is not covered by the product warranty. Typical IV Curve 1000 Vgs=0.8V 900 800 Vgs=0.7V 700 600 A) Ids (m 540000 Vgs=0.6V Vgs=0.54V 300 200 Vgs=0.5V 100 Vgs=0.4V 0 00.5 1 1.5 2 2.5 3 3.5 4 4.5 55.5 6 6.57 Vds (V) Figure 6. Typical IV curve. 44

ATF-50189 Typical Performance Curves (at 25°C unless specified otherwise) Tuned for Optimal OIP3 at Vd = 4.5V, Ids = 280 mA, Operating Frequency = 2 GHz. 48 32 46 44 30 42 m) m) 28 P3 (dB 4308 dB (dB OI P1 26 36 3.5V 3.5V 34 4.5V 24 4.5V 5.5V 5.5V 32 30 22 120 160 200 240 280 320 360 400 440 120 160 200 240 280 320 360 400 440 Ids (mA) Idsq (mA) Figure 7. OIP3 vs. Ids and Vds at 2 GHz. Figure 8. P1dB vs. Idsq and Vds at 2 GHz. 15.4 70 15.2 65 60 15 dB)14.8 %) 55 N ( E ( 50 GAI14.6 PA 45 14.4 3.5V 3.5V 40 4.5V 4.5V 14.2 5.5V 35 5.5V 14 30 120 160 200 240 280 320 360 400 440 120 160 200 240 280 320 360 400 440 Ids (mA) Idsq (mA) Figure 9. Gain vs. Ids and Vds at 2 GHz. Figure 10. PAE vs. Idsq and Vds at 2 GHz. 55

ATF-50189 Typical Performance Curves, continued Tuned for Optimal OIP3 at Vd = 4.5V, Ids = 280 mA, Operating Frequency = 900 MHz. 50 32 46 30 42 28 m) m) OIP3 (dB 3384 P1dB (dB 26 24 30 3.5V 3.5V 4.5V 4.5V 26 5.5V 22 5.5V 22 20 120 160 200 240 280 320 360 400 440 120 160 200 240 280 320 360 400 440 Ids (mA) Idsq (mA) Figure 11. OIP3 vs. Ids and Vds at 900 MHz. Figure 12. P1dB vs. Idsq and Vds at 900 MHz. 22.2 60 55 22 50 21.8 45 dB)21.6 %) 40 N ( E ( 35 GAI21.4 PA 30 21.2 3.5V 25 3.5V 4.5V 20 4.5V 21 5.5V 5.5V 15 20.8 10 120 160 200 240 280 320 360 400 440 120 160 200 240 280 320 360 400 440 Ids (mA) Idsq (mA) Figure 13. Gain vs. Ids and Vds at 900 MHz. Figure 14. PAE vs. Idsq and Vds at 900 MHz. 66

ATF-50189 Typical Performance Curves, continued Tuned for Optimal OIP3 at Vd = 4.5V, Ids = 280 mA, Over Temperature and Frequency 56 32 52 30 48 28 m) 44 m) B B 3 (d 40 B (d 26 OIP 36 P1d 24 32 -40°C -40°C 25°C 25°C 85°C 22 85°C 28 24 20 0 0.5 1 1.5 2 2.5 3 3.5 4 0 0.5 1 1.5 2 2.5 3 3.5 4 FREQUENCY (GHz) FREQUENCY (GHz) Figure 15. OIP3 vs. Temperature and Figure 16. P1dB vs. Temperature and Frequency at optimum OIP3. Frequency at optimum OIP3. 26 70 60 22 50 18 dB) %) 40 N ( 14 E ( GAI PA 30 10 -40°C 20 -40°C 25°C 25°C 6 85°C 10 85°C 2 0 0 0.5 1 1.5 2 2.5 3 3.5 4 0 0.5 1 1.5 2 2.5 3 3.5 4 FREQUENCY (GHz) FREQUENCY (GHz) Figure 17. Gain vs. Temperature and Figure 18. PAE vs. Temperature and Frequency at optimum OIP3. Frequency at optimum OIP3. 77

ATF-50189 Typical Performance Curves, continued Tuned for Optimal P1dB at Vd = 4.5V, Ids = 280 mA, Operating Frequency = 2 GHz. 46 34 44 32 42 m) 40 m) 30 B B 3 (d 38 B (d P d OI 36 P1 28 3.5V 3.5V 34 4.5V 26 4.5V 5.5V 5.5V 32 30 24 120 160 200 240 280 320 360 400 440 120 160 200 240 280 320 360 400 440 Ids (mA) Idsq (mA) Figure 19. OIP3 vs. Ids and Vds at 2 GHz. Figure 20. P1dB vs. Idsq and Vds at 2 GHz. 15.4 65 15.2 60 15 14.8 55 dB)14.6 %) GAIN (14.4 PAE ( 50 14.2 45 3.5V 3.5V 14 4.5V 4.5V 5.5V 40 5.5V 13.8 13.6 35 120 160 200 240 280 320 360 400 440 120 160 200 240 280 320 360 400 440 Ids (mA) Idsq (mA) Figure 21. Gain vs. Ids and Vds at 2 GHz. Figure 22. PAE vs. Idsq and Vds at 2 GHz. 88

ATF-50189 Typical Performance Curves, continued Tuned for Optimal P1dB at Vd = 4.5V, Ids = 280 mA, Operating Frequency = 900 MHz. 46 34 44 42 32 40 m) m) 30 P3 (dB 3386 dB (dB OI P1 28 34 3.5V 3.5V 32 4.5V 26 4.5V 5.5V 5.5V 30 28 24 120 160 200 240 280 320 360 400 440 120 160 200 240 280 320 360 400 440 Ids (mA) Idsq (mA) Figure 23. OIP3 vs. Ids and Vds at 900 MHz. Figure 24. P1dB vs. Idsq and Vds at 900 MHz. 21 70 20.8 65 20.6 60 20.4 dB) 20.2 %) 55 N ( 20 E ( 50 GAI 19.8 PA 45 19.6 3.5V 3.5V 40 19.4 4.5V 4.5V 5.5V 5.5V 19.2 35 19 30 120 160 200 240 280 320 360 400 440 120 160 200 240 280 320 360 400 440 Ids (mA) Idsq (mA) Figure 25. Gain vs. Ids and Vds at 900 MHz. Figure 26. PAE vs. Idsq and Vds at 900 MHz. 99

ATF-50189 Typical Performance Curves, continued Tuned for Optimal P1dB at Vd = 4.5V, Ids = 280 mA, Over Temperature and Frequency 52 34 48 32 44 30 m) m) OIP3 (dB 4306 P1dB (dB 28 26 32 -40°C -40°C 25°C 25°C 28 85°C 24 85°C 24 22 0 0.5 1 1.5 2 2.5 3 3.5 4 0 0.5 1 1.5 2 2.5 3 3.5 4 FREQUENCY (GHz) FREQUENCY (GHz) Figure 27. OIP3 vs. Temperature and Figure 28. P1dB vs. Temperature and Frequency at optimum P1dB. Frequency at optimum P1dB. 26 70 22 60 50 18 dB) %) 40 N ( 14 E ( GAI PA 30 10 -40°C 20 -40°C 25°C 25°C 6 85°C 10 85°C 2 0 0 0.5 1 1.5 2 2.5 3 3.5 4 0 0.5 1 1.5 2 2.5 3 3.5 4 FREQUENCY (GHz) FREQUENCY (GHz) Figure 29. Gain vs. Temperature and Figure 30. PAE vs. Temperature and Frequency at optimum P1dB. Frequency at optimum P1dB. 1100

ATF-50189 Typical Scattering Parameters at 25°C, V = 4.5V, I = 280 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.923 -133.2 31.0 35.531 110.9 -37.7 0.013 31.7 0.692 -163.7 34.4 0.2 0.919 -158.7 25.6 19.023 97.1 -37.1 0.014 25.2 0.738 -173.2 31.3 0.3 0.919 -169.4 22.2 12.872 90.4 -36.5 0.015 24.9 0.749 -177.6 29.3 0.4 0.917 -176.1 19.7 9.705 85.7 -35.9 0.016 26.3 0.752 179.3 27.8 0.5 0.916 178.5 17.7 7.687 84.4 -35.4 0.017 30.4 0.756 175.7 26.6 0.6 0.916 174.5 16.2 6.438 81.7 -34.9 0.018 32.6 0.755 173.5 25.5 0.7 0.917 170.9 14.9 5.582 79.2 -34.4 0.019 34.5 0.755 171.4 24.7 0.8 0.918 167.5 13.9 4.939 76.5 -33.6 0.021 35.9 0.753 169.4 23.7 0.9 0.920 164.1 12.9 4.433 73.8 -33.2 0.022 36.8 0.755 167.5 23.0 1.0 0.921 161.0 12.1 4.026 70.9 -32.4 0.024 37.1 0.753 165.6 22.2 1.1 0.922 159.6 11.7 3.853 69.5 -32.0 0.025 37.1 0.753 164.7 21.9 1.2 0.922 158.1 11.3 3.679 68.1 -32.0 0.025 37.1 0.753 163.7 21.7 1.3 0.922 155.4 10.6 3.378 65.2 -31.4 0.027 36.7 0.751 162.0 21.0 1.4 0.919 152.6 9.9 3.127 62.3 -31.1 0.028 36.3 0.753 160.2 20.3 1.5 0.918 150.2 9.3 2.910 59.6 -30.5 0.030 35.8 0.753 158.4 19.2 1.6 0.920 147.5 8.7 2.717 56.7 -30.2 0.031 35.0 0.753 156.7 18.5 1.7 0.919 144.6 8.1 2.547 53.9 -29.6 0.033 34.1 0.753 154.9 17.8 1.8 0.920 142.0 7.6 2.392 51.2 -29.4 0.034 33.2 0.753 153.3 17.2 1.9 0.918 139.6 7.0 2.251 48.6 -29.1 0.035 32.1 0.752 151.7 16.5 2.0 0.919 137.1 6.5 2.123 45.9 -28.6 0.037 31.0 0.752 150.1 16.0 2.1 0.917 134.6 6.1 2.009 43.3 -28.4 0.038 29.7 0.752 148.3 15.4 2.2 0.918 132.0 5.6 1.908 40.6 -28.2 0.039 28.6 0.752 146.8 15.0 2.3 0.915 129.8 5.1 1.800 37.9 -28.0 0.040 27.4 0.755 145.2 14.4 2.4 0.912 127.1 4.7 1.721 35.6 -27.7 0.041 26.0 0.750 143.9 13.9 2.5 0.908 124.9 4.3 1.647 33.4 -27.3 0.043 25.0 0.768 142.3 13.4 3 0.908 112.7 2.3 1.304 21.1 -26.6 0.047 18.3 0.766 135.5 11.5 3.5 0.912 99.5 0.5 1.062 11.3 -26.0 0.050 12.6 0.773 131.8 10.0 4 0.923 92.6 -0.7 0.921 1.5 -25.8 0.051 7.1 0.779 123.3 9.4 5 0.922 78.2 -3.5 0.669 -19.8 -25.2 0.055 -5.3 0.793 102.9 7.0 6 0.921 61.3 -5.8 0.515 -41.5 -25.7 0.052 -22.4 0.806 84.7 5.2 7 0.921 41.2 -8.2 0.389 -59.6 -26.0 0.050 -39.5 0.809 69.9 3.2 8 0.922 24.3 -10.2 0.308 -79.9 -26.7 0.046 -55.9 0.844 54.6 2.1 9 0.923 11.8 -12.4 0.239 -100.5 -28.4 0.038 -73.5 0.882 37.0 1.4 10 0.922 10.8 -14.6 0.187 -109.4 -31.1 0.028 -81.6 0.896 27.1 0.1 11 0.921 0.3 -16.0 0.158 -124.9 -34.4 0.019 -108.3 0.872 20.3 -1.8 12 0.924 -8.0 -17.7 0.131 -138.0 -46.0 0.005 -147.3 0.916 7.0 -1.3 13 0.923 -12.1 -19.2 0.110 -153.4 -40.0 0.010 71.0 0.877 -1.1 -4.4 14 0.922 -20.6 -21.0 0.089 -168.9 -37.1 0.014 30.2 0.882 -7.5 -6.3 15 0.925 -23.6 -21.4 0.085 177.8 -39.2 0.011 -4.9 0.865 -19.2 -7.2 16 0.925 -23.1 -21.1 0.088 165.9 -37.7 0.013 -8.8 0.864 -26.2 -6.9 17 0.924 -24.3 -18.9 0.114 155.2 -41.9 0.008 -173.5 0.856 -33.6 -4.7 18 0.924 -32.5 -17.1 0.140 133.4 -35.4 0.017 161.7 0.835 -42.5 -3.2 40 30 MSG B) Notes: 2 |(d 20 1. Sm apdaera omne 0te.0r2 is5 minechas tuhriecdk aolnu ma imnaic rcoasrrtireipr. lTinhee 1 S2 10 MAG input reference plane is at the end of the gate | & lead. The output reference plane is at the end MAG 0 S21 of the drain lead. / G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 31. MSG/MAG & |S21|2 vs Frequency at 4.5V/280 mA. 1111

ATF-50189 Typical Scattering Parameters at 25°C, V = 4.5V, I = 200 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.924 -131.8 31.0 35.392 111.6 -37.1 0.014 31.1 0.682 -161.3 34.0 0.2 0.918 -157.9 25.6 19.011 97.5 -35.9 0.016 23.7 0.731 -172.0 30.7 0.3 0.918 -168.9 22.2 12.87 90.7 -35.9 0.016 23.0 0.743 -176.8 29.1 0.4 0.917 -175.7 19.7 9.706 85.9 -35.4 0.017 23.9 0.746 -180.0 27.6 0.5 0.914 178.9 17.7 7.686 84.4 -34.9 0.018 27.7 0.749 176.2 26.3 0.6 0.914 174.8 16.2 6.438 81.8 -34.4 0.019 29.8 0.749 173.9 25.3 0.7 0.916 171.1 14.9 5.583 79.2 -34.0 0.020 31.7 0.749 171.8 24.5 0.8 0.917 167.7 13.9 4.94 76.5 -33.2 0.022 32.9 0.747 169.8 23.5 0.9 0.918 164.3 12.9 4.433 73.7 -32.8 0.023 33.8 0.748 167.8 22.8 1 0.918 161.2 12.1 4.025 70.9 -32.0 0.025 34.2 0.747 165.9 22.1 1.1 0.919 159.8 11.7 3.852 69.5 -31.7 0.026 34.2 0.747 165.0 21.7 1.2 0.920 158.3 11.3 3.679 68.0 -31.7 0.026 34.2 0.747 164.0 21.5 1.3 0.920 155.6 10.6 3.377 65.1 -31.4 0.027 34.0 0.746 162.3 21.0 1.4 0.917 152.7 9.9 3.126 62.2 -30.8 0.029 33.6 0.747 160.5 20.3 1.5 0.916 152.3 9.3 2.911 59.6 -30.5 0.030 33.3 0.747 158.7 19.9 1.6 0.920 147.7 8.7 2.718 56.6 -29.9 0.032 32.5 0.747 156.9 19.3 1.7 0.919 144.8 8.1 2.547 53.7 -29.6 0.033 31.7 0.747 155.1 18.1 1.8 0.918 142.2 7.6 2.392 51.1 -29.1 0.035 30.9 0.747 153.6 17.3 1.9 0.917 139.8 7.0 2.251 48.4 -28.9 0.036 29.9 0.747 151.9 16.6 2 0.918 137.2 6.5 2.122 45.7 -28.6 0.037 28.8 0.746 150.3 16.1 2.1 0.916 134.7 6.1 2.008 43.1 -28.4 0.038 27.7 0.747 148.6 15.5 2.2 0.917 132.1 5.6 1.907 40.4 -28.2 0.039 26.6 0.746 147.0 15.1 2.3 0.913 129.8 5.2 1.811 37.7 -28.0 0.040 25.3 0.745 145.7 14.4 2.4 0.911 127.2 4.7 1.72 35.3 -27.7 0.041 24.2 0.746 144.2 13.9 2.5 0.907 125.1 4.3 1.645 33.1 -27.3 0.043 23.2 0.762 142.5 13.5 3 0.918 112.7 2.3 1.303 20.9 -26.6 0.047 16.8 0.761 135.8 11.9 3.5 0.912 99.5 0.7 1.08 10.7 -26.0 0.050 12.6 0.798 131.8 10.4 4 0.923 92.6 -0.6 0.93 0.5 -26.0 0.050 6.2 0.799 122.0 9.7 5 0.922 78.2 -3.5 0.67 -20.4 -25.8 0.051 -6.7 0.800 102.3 7.2 6 0.921 61.3 -5.8 0.513 -42.1 -26.5 0.053 -26.9 0.808 84.7 5.3 7 0.921 41.2 -8.3 0.386 -60.0 -26.0 0.050 -40.1 0.809 69.9 3.1 8 0.922 24.3 -10.3 0.305 -80.4 -26.7 0.046 -56.8 0.843 54.8 2.1 9 0.923 11.8 -12.5 0.238 -101.3 -28.4 0.038 -74.6 0.881 37.1 1.3 10 0.922 10.8 -14.8 0.183 -108.5 -31.1 0.028 -82.9 0.895 27.3 -0.1 11 0.921 0.3 -16.0 0.158 -126.0 -34.4 0.019 -110.5 0.872 20.5 -1.7 12 0.924 -8.0 -17.8 0.129 -138.1 -46.0 0.005 -155.4 0.917 7.3 -1.4 13 0.923 -12.1 -19.3 0.109 -152.2 -40.0 0.010 73.6 0.878 -0.8 -4.5 14 0.922 -20.6 -21.3 0.086 -168.0 -37.1 0.014 33.1 0.883 -7.3 -6.6 15 0.925 -23.6 -21.3 0.086 177.1 -39.2 0.011 -0.7 0.865 -19.0 -7.1 16 0.925 -23.1 -21.1 0.088 166.0 -37.1 0.014 -7.2 0.865 -26.0 -6.9 17 0.924 -24.3 -19.1 0.111 154.3 -43.1 0.007 -179.9 0.857 -33.4 -4.9 18 0.924 -32.5 -17.0 0.141 134.0 -35.4 0.017 159.5 0.837 -42.2 -3.0 40 30 B) MSG Notes: 2 |(d 20 1. Sm apdaera omne 0te.0r2 is5 minechas tuhriecdk aolnu ma imnaic rcoasrrtireipr. lTinhee S21 10 MAG input reference plane is at the end of the gate | & lead. The output reference plane is at the end MAG 0 S21 of the drain lead. / G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 32. MSG/MAG & |S21|2 vs Frequency at 4.5V/200 mA. 1212

ATF-50189 Typical Scattering Parameters at 25°C, V = 4.5V, I = 360 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.935 -134.4 29.1 28.363 110.9 -39.2 0.011 33.4 0.800 -171.2 34.1 0.2 0.932 -159.5 23.6 15.134 97.3 -37.7 0.013 28.3 0.838 -177.3 30.7 0.3 0.932 -170.1 20.2 10.222 90.8 -37.1 0.014 29.1 0.847 179.4 28.6 0.4 0.930 -176.6 17.7 7.696 86.2 -36.5 0.015 30.9 0.849 176.9 27.1 0.5 0.930 178.1 15.7 6.096 85.2 -35.9 0.016 35.4 0.854 174.0 25.8 0.6 0.931 174.2 14.2 5.107 82.8 -35.4 0.017 37.8 0.855 172.0 24.8 0.7 0.933 170.6 12.9 4.429 80.4 -34.4 0.019 39.7 0.855 170.0 23.7 0.8 0.933 167.2 11.9 3.919 77.9 -33.6 0.021 40.8 0.853 168.2 22.7 0.9 0.935 163.9 10.9 3.526 75.3 -33.2 0.022 41.5 0.858 166.3 22.0 1 0.936 160.7 10.1 3.2 72.6 -32.4 0.024 41.6 0.855 164.4 21.2 1.1 0.937 159.3 9.7 3.063 71.3 -32.0 0.025 41.5 0.855 163.4 20.9 1.2 0.938 157.8 9.3 2.925 69.9 -31.7 0.026 41.3 0.855 162.4 20.5 1.3 0.936 155.1 8.6 2.685 67.2 -31.1 0.028 40.8 0.852 160.7 19.8 1.4 0.933 152.3 7.9 2.488 64.4 -30.8 0.029 40.0 0.857 158.9 19.3 1.5 0.933 151.1 7.6 2.401 63.2 -30.5 0.03 39.7 0.857 158.0 19.0 1.6 0.932 149.8 7.3 2.314 61.9 -30.2 0.031 39.3 0.856 157.0 18.7 1.7 0.934 147.2 6.7 2.163 59.1 -29.6 0.033 38.2 0.854 155.2 18.1 1.8 0.934 144.3 6.2 2.032 56.4 -29.4 0.034 37.0 0.855 153.4 17.1 1.9 0.933 141.7 5.6 1.906 53.9 -28.9 0.036 35.8 0.854 151.8 16.4 2 0.932 139.3 5.1 1.794 51.3 -28.6 0.037 34.5 0.853 150.0 15.8 2.1 0.933 136.7 4.6 1.69 48.8 -28.4 0.038 33.2 0.851 148.4 15.2 2.2 0.930 134.2 4.1 1.6 46.4 -28.0 0.04 31.8 0.852 146.6 14.6 2.3 0.931 131.6 3.7 1.523 44.0 -27.7 0.041 30.5 0.851 145.0 14.2 2.4 0.929 129.2 3.2 1.442 41.7 -27.5 0.042 29.0 0.853 143.3 13.7 2.5 0.924 126.7 2.7 1.371 39.2 -27.1 0.044 27.5 0.845 142.1 13.0 3 0.917 114.6 0.7 1.09 27.7 -26.4 0.048 20.1 0.855 134.5 11.1 3.5 0.911 102.2 -1.1 0.886 18.3 -25.7 0.052 13.6 0.874 129.8 9.6 4 0.921 93.1 -2.3 0.771 9.1 -25.5 0.053 6.8 0.894 121.3 9.1 5 0.922 79.3 -4.9 0.569 -10.0 -24.9 0.057 -7.3 0.912 101.1 7.2 6 0.921 64.3 -7.1 0.441 -30.0 -24.6 0.059 -28.5 0.929 85.8 6.3 7 0.921 43.0 -9.4 0.337 -46.5 -25.8 0.051 -40.6 0.863 68.4 2.8 8 0.922 25.9 -11.3 0.273 -65.6 -26.6 0.047 -57.3 0.875 53.0 1.6 9 0.922 13.2 -13.0 0.225 -84.2 -28.2 0.039 -76.1 0.914 35.5 1.5 10 0.921 11.7 -15.3 0.171 -93.0 -31.1 0.028 -84.5 0.935 26.0 0.7 11 0.921 0.8 -16.2 0.155 -106.9 -33.6 0.021 -111.9 0.899 19.0 -1.2 12 0.923 -7.6 -17.1 0.139 -117.3 -43.1 0.007 -160.6 0.954 7.2 1.7 13 0.923 -10.9 -18.3 0.122 -130.6 -39.2 0.011 77.1 0.901 -1.6 -2.4 14 0.922 -20.2 -19.2 0.11 -150.3 -36.5 0.015 31.3 0.897 -8.1 -3.8 15 0.925 -23.6 -19.0 0.112 -172.7 -37.7 0.013 -5.0 0.884 -20.3 -4.2 16 0.924 -21.8 -19.4 0.107 165.1 -39.2 0.011 -3.4 0.873 -27.6 -5.0 17 0.924 -24.0 -18.1 0.124 147.9 -39.2 0.011 -175.1 0.865 -35.4 -3.6 18 0.923 -31.6 -17.3 0.136 127.1 -33.2 0.022 153.4 0.830 -43.4 -3.5 40 30 MSG B) Notes: d 1. S parameter is measured on a microstrip line 2 |( 20 made on 0.025 inch thick alumina carrier. The 1 S2 10 MAG input reference plane is at the end of the gate |& lead. The output reference plane is at the end AG 0 of the drain lead. M S21 / G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 33. MSG/MAG & |S21|2 vs Frequency at 4.5V/360 mA. 1313

ATF-50189 Typical Scattering Parameters at 25°C, V = 5.5V, I = 280 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.921 -132.3 31.4 36.968 111.4 -37.7 0.013 31.1 0.651 -160.8 34.5 0.2 0.916 -158.2 26.0 19.86 97.3 -36.5 0.015 23.9 0.698 -171.7 31.2 0.3 0.917 -169.1 22.6 13.453 90.5 -36.5 0.015 23.3 0.709 -176.6 29.5 0.4 0.915 -175.9 20.1 10.143 85.6 -35.9 0.016 24.4 0.712 -179.8 28.0 0.5 0.913 178.7 18.1 8.037 84.1 -35.4 0.017 28.1 0.716 176.2 26.7 0.6 0.914 174.5 16.6 6.733 81.3 -34.9 0.018 30.2 0.715 173.8 25.7 0.7 0.916 170.9 15.3 5.837 78.6 -34.4 0.019 32.0 0.715 171.6 24.9 0.8 0.916 167.4 14.3 5.163 75.8 -33.6 0.021 33.2 0.713 169.6 23.9 0.9 0.918 164.1 13.3 4.632 72.9 -33.2 0.022 34.1 0.714 167.6 23.2 1 0.919 160.8 12.5 4.205 70.0 -32.8 0.023 34.4 0.712 165.7 22.6 1.1 0.920 159.4 12.1 4.024 68.5 -32.4 0.024 34.4 0.712 164.8 22.2 1.2 0.921 157.9 11.7 3.842 67.0 -32.0 0.025 34.4 0.712 163.8 21.9 1.3 0.920 155.2 10.9 3.525 64.0 -31.7 0.026 34.2 0.711 162.0 21.3 1.4 0.917 152.3 10.3 3.261 61.0 -31.4 0.027 33.8 0.713 160.2 20.4 1.5 0.917 149.8 9.6 3.031 58.3 -30.8 0.029 33.4 0.713 158.4 19.5 1.6 0.920 147.2 9.0 2.832 55.3 -30.5 0.030 32.7 0.713 156.6 18.9 1.7 0.920 144.3 8.5 2.656 52.3 -30.2 0.031 31.8 0.713 154.8 18.1 1.8 0.919 141.7 7.9 2.490 49.6 -29.6 0.033 31.1 0.714 153.2 17.4 1.9 0.918 139.2 7.4 2.342 46.8 -29.4 0.034 30.0 0.714 151.6 16.8 2 0.919 136.7 6.9 2.206 44.1 -29.1 0.035 29.0 0.714 150.0 16.3 2.1 0.917 134.1 6.4 2.089 41.4 -28.9 0.036 27.8 0.715 148.2 15.7 2.2 0.919 131.5 5.9 1.982 38.6 -28.6 0.037 26.8 0.715 146.6 15.3 2.3 0.916 129.3 5.4 1.870 35.8 -28.4 0.038 25.4 0.714 144.8 14.7 2.4 0.912 126.6 5.0 1.784 33.4 -28.2 0.039 24.3 0.715 143.8 14.1 2.5 0.909 124.5 4.6 1.707 31.0 -28.0 0.040 23.3 0.732 142.1 13.7 3 0.909 112.2 2.6 1.345 18.4 -27.1 0.044 16.9 0.734 135.3 11.7 3.5 0.912 99.5 0.8 1.091 8.3 -26.6 0.047 11.5 0.742 131.4 10.2 4 0.923 92.6 -0.5 0.944 -2.0 -26.3 0.048 6.2 0.752 122.9 9.5 5 0.922 78.2 -3.4 0.678 -23.9 -25.7 0.052 -5.8 0.771 102.2 7.0 6 0.921 61.3 -5.8 0.514 -46.3 -26.2 0.049 -22.8 0.791 84.0 5.2 7 0.921 41.2 -8.3 0.383 -64.8 -26.6 0.047 -39.7 0.802 69.1 3.1 8 0.922 24.3 -10.5 0.298 -85.4 -27.3 0.043 -55.8 0.841 54.0 2.0 9 0.923 11.8 -12.8 0.230 -106.2 -29.1 0.035 -73.3 0.883 36.5 1.2 10 0.922 10.8 -14.9 0.179 -114.3 -31.7 0.026 -81.6 0.900 27.0 0 11 0.921 0.3 -16.4 0.151 -132.9 -35.4 0.017 -112 0.879 20.6 -1.8 12 0.924 -8.0 -18.3 0.121 -145.5 -48.0 0.004 -174.6 0.924 8.0 -1.5 13 0.923 -12.1 -20.1 0.099 -162.1 -37.7 0.013 75.2 0.885 0.6 -5.1 14 0.922 -20.6 -22.2 0.078 -177.8 -35.9 0.016 38.6 0.889 -5.1 -7.2 15 0.925 -23.6 -22.9 0.072 168.0 -38.4 0.012 11.1 0.872 -15.9 -8.4 16 0.925 -23.1 -22.9 0.072 158.3 -37.1 0.014 5.1 0.873 -21.8 -8.4 17 0.924 -24.3 -20.4 0.096 150.1 -43.1 0.007 155.8 0.867 -27.8 -5.8 18 0.924 -32.5 -18.1 0.125 133.1 -36.5 0.015 146.2 0.855 -34.7 -3.7 40 B) 30 MSG Notes: d 1. S parameter is measured on a microstrip line 2 |( 20 MAG made on 0.025 inch thick alumina carrier. The 1 S2 10 input reference plane is at the end of the gate | & lead. The output reference plane is at the end MAG 0 S21 of the drain lead. / G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 34. MSG/MAG & |S21|2 vs Frequency at 5.5V/280 mA. 1414

ATF-50189 Typical Scattering Parameters at 25°C, V = 5.5V, I = 200 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.922 -131.5 31.3 36.764 111.7 -37.1 0.014 30.8 0.65 -159.4 34.2 0.2 0.917 -157.7 25.9 19.783 97.5 -36.5 0.015 23.2 0.70 -171.0 31.2 0.3 0.916 -168.8 22.5 13.403 90.6 -35.9 0.016 22.1 0.71 -176.1 29.2 0.4 0.914 -175.7 20.1 10.105 85.7 -35.4 0.017 22.9 0.71 -179.5 27.7 0.5 0.912 178.8 18.1 8.007 84.1 -34.9 0.018 26.5 0.72 176.4 26.5 0.6 0.913 174.7 16.5 6.708 81.3 -34.4 0.019 28.6 0.72 174.1 25.5 0.7 0.915 171.0 15.3 5.815 78.7 -34.0 0.02 30.3 0.72 171.8 24.6 0.8 0.916 167.6 14.2 5.144 75.9 -33.6 0.021 31.4 0.71 169.8 23.9 0.9 0.918 164.1 13.3 4.613 72.9 -33.2 0.022 32.4 0.71 167.7 23.2 1 0.918 161.0 12.4 4.188 70.1 -32.4 0.024 32.7 0.71 165.9 22.4 1.1 0.919 159.5 12.1 4.008 68.6 -32.0 0.025 32.8 0.71 164.9 22.0 1.2 0.920 158.0 11.7 3.827 67.1 -32.0 0.025 32.8 0.71 163.9 21.8 1.3 0.920 155.3 10.9 3.512 64.0 -31.7 0.026 32.5 0.71 162.1 21.3 1.4 0.917 152.4 10.2 3.249 61.1 -31.1 0.028 32.2 0.71 160.3 20.6 1.5 0.917 150.0 9.6 3.023 58.4 -30.8 0.029 31.9 0.71 158.5 19.7 1.6 0.919 147.3 9.0 2.821 55.3 -30.5 0.03 31.2 0.71 156.7 19.0 1.7 0.918 144.5 8.5 2.648 52.3 -29.9 0.032 30.4 0.72 154.9 18.3 1.8 0.919 141.8 7.9 2.482 49.6 -29.6 0.033 29.6 0.72 153.3 17.6 1.9 0.918 139.3 7.4 2.333 46.8 -29.4 0.034 28.6 0.72 151.6 16.9 2 0.918 136.7 6.8 2.199 44.1 -29.1 0.035 27.6 0.72 150.0 16.3 2.1 0.917 134.2 6.4 2.082 41.4 -28.9 0.036 26.5 0.72 148.2 15.8 2.2 0.918 131.6 5.9 1.973 38.6 -28.6 0.037 25.4 0.72 146.7 15.3 2.3 0.913 129.4 5.4 1.868 35.7 -28.4 0.038 24.2 0.71 145.1 14.6 2.4 0.912 126.7 5.0 1.778 33.4 -28.2 0.039 23.0 0.72 143.8 14.1 2.5 0.908 124.5 4.6 1.700 31.1 -28.0 0.04 22.1 0.73 142.1 13.6 3 0.907 112.2 2.5 1.340 18.4 -27.1 0.044 15.8 0.74 135.2 11.7 3.5 0.912 99.5 1.4 1.176 7.8 -26.7 0.046 9.7 0.76 126.6 10.8 4 0.923 92.6 0.1 1.012 -2.9 -26.6 0.047 3.5 0.78 117.9 10.3 5 0.922 78.2 -3.3 0.685 -24.1 -26.4 0.048 -10.3 0.82 100.7 7.8 6 0.921 61.3 -5.8 0.512 -46.3 -26.6 0.047 -25.6 0.85 84.1 6.2 7 0.921 41.2 -8.4 0.381 -64.7 -26.7 0.046 -40.9 0.86 67.8 4.0 8 0.922 24.3 -10.5 0.298 -85.4 -27.3 0.043 -56.4 0.87 51.5 2.5 9 0.923 11.8 -12.8 0.230 -106.7 -29.1 0.035 -74.0 0.88 36.5 1.2 10 0.922 10.8 -14.9 0.179 -114.6 -31.7 0.026 -82.1 0.90 27.1 0 11 0.921 0.3 -16.4 0.151 -132.2 -35.4 0.017 -113.8 0.88 20.7 -1.8 12 0.924 -8.0 -18.4 0.120 -145.0 -46.0 0.005 179.4 0.92 8.1 -1.8 13 0.923 -12.1 -20.1 0.099 -161.7 -37.7 0.013 76.2 0.89 0.7 -4.9 14 0.922 -20.6 -22.2 0.078 -176.9 -35.9 0.016 39.1 0.89 -5.0 -7.2 15 0.925 -23.6 -22.9 0.072 171.6 -38.4 0.012 12.7 0.87 -15.8 -8.4 16 0.925 -23.1 -22.4 0.076 160.6 -36.5 0.015 6.4 0.87 -21.7 -8.0 17 0.924 -24.3 -20.1 0.099 151.7 -43.1 0.007 153.6 0.87 -27.7 -5.5 18 0.924 -32.5 -18.1 0.125 131.4 -36.5 0.015 145.0 0.86 -34.6 -3.5 40 30 B) MSG Notes: d 1. S parameter is measured on a microstrip line 2 |( 20 made on 0.025 inch thick alumina carrier. The S21 10 MAG input reference plane is at the end of the gate |& lead. The output reference plane is at the end MAG 0 S21 of the drain lead. / G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 35. MSG/MAG & |S21|2 vs Frequency at 5.5V/200 mA. 1515

ATF-50189 Typical Scattering Parameters at 25°C, V = 5.5V, I = 360 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.874 -133.9 31.3 36.688 112.8 -39.2 0.011 32.1 0.639 -161.7 35.2 0.2 0.902 -159.0 26.0 19.973 98.3 -37.7 0.013 25.5 0.688 -172 31.9 0.3 0.910 -169.6 22.7 13.575 91.1 -37.1 0.014 24.9 0.699 -176.7 29.9 0.4 0.911 -176.2 20.2 10.251 86.1 -36.5 0.015 26.2 0.702 -179.9 28.3 0.5 0.911 178.4 18.2 8.123 84.4 -35.9 0.016 30.0 0.706 176.1 27.1 0.6 0.912 174.4 16.7 6.810 81.6 -35.4 0.017 32.1 0.706 173.7 26.0 0.7 0.914 170.8 15.4 5.902 78.8 -34.9 0.018 34.0 0.705 171.5 25.2 0.8 0.916 167.4 14.4 5.218 76.0 -34.4 0.019 35.3 0.702 169.6 24.4 0.9 0.916 164.0 13.4 4.686 73.0 -33.6 0.021 36.2 0.705 167.6 23.5 1 0.917 160.9 12.6 4.247 70.1 -33.2 0.022 36.6 0.702 165.7 22.9 1.1 0.919 159.5 12.2 4.064 68.6 -33.0 0.0225 36.6 0.702 164.7 22.6 1.2 0.920 158.0 11.8 3.881 67.1 -32.8 0.023 36.5 0.702 163.7 22.3 1.3 0.919 155.3 11.0 3.562 64.1 -32.0 0.025 36.3 0.700 162.1 21.2 1.4 0.915 152.4 10.4 3.296 61.0 -31.7 0.026 35.8 0.703 160.3 19.7 1.5 0.916 150.0 9.7 3.064 58.3 -31.4 0.027 35.5 0.702 158.5 19.0 1.6 0.918 147.4 9.1 2.861 55.2 -30.8 0.029 34.8 0.702 156.7 18.5 1.7 0.918 144.5 8.6 2.684 52.2 -30.5 0.03 33.9 0.702 155.0 17.9 1.8 0.918 141.9 8.0 2.517 49.5 -30.2 0.031 33.0 0.703 153.4 17.3 1.9 0.917 139.4 7.5 2.368 46.7 -29.6 0.033 32.0 0.703 151.8 16.7 2 0.918 136.9 7.0 2.229 43.9 -29.4 0.034 30.9 0.703 150.2 16.2 2.1 0.916 134.4 6.5 2.110 41.2 -29.1 0.035 29.7 0.705 148.5 15.6 2.2 0.917 131.8 6.0 2.003 38.4 -28.9 0.036 28.6 0.704 146.9 15.2 2.3 0.913 129.6 5.5 1.89 35.6 -28.6 0.037 27.3 0.702 145.6 14.5 2.4 0.911 126.9 5.1 1.802 33.2 -28.4 0.038 26.1 0.703 144.2 14.0 2.5 0.907 124.8 4.7 1.724 30.8 -28.2 0.039 25.1 0.722 142.6 13.6 3 0.907 112.5 2.7 1.360 18.0 -27.3 0.043 18.7 0.724 135.9 11.7 3.5 0.912 99.5 1.5 1.192 7.1 -26.9 0.045 11.0 0.742 127.8 10.8 4 0.923 92.6 0.5 1.054 -3.7 -26.6 0.047 3.0 0.761 118.9 10.5 5 0.922 78.2 -2.2 0.777 -25.4 -26.2 0.049 -11.9 0.799 101.3 8.6 6 0.921 61.3 -5.7 0.520 -47.3 -26.6 0.047 -25.5 0.828 84.3 5.9 7 0.921 41.2 -8.2 0.388 -66.0 -26.7 0.046 -39.2 0.846 68.3 3.9 8 0.922 24.3 -10.3 0.304 -86.5 -27.3 0.043 -54.0 0.863 52.3 2.5 9 0.923 11.8 -12.7 0.233 -108.9 -29.1 0.035 -71.3 0.877 37.6 1.2 10 0.922 10.8 -14.8 0.181 -117.8 -31.7 0.026 -78.2 0.894 28.0 -0.2 11 0.921 0.3 -16.1 0.156 -134.7 -34.9 0.018 -106.9 0.874 21.3 -1.7 12 0.924 -8.0 -18.1 0.125 -147.8 -48.0 0.004 -144.3 0.919 8.2 -1.6 13 0.923 -12.1 -19.7 0.104 -165.7 -40.0 0.01 74.2 0.878 0.1 -4.9 14 0.922 -20.6 -21.9 0.080 178.6 -37.1 0.014 30.8 0.881 -6.4 -7.3 15 0.925 -23.6 -22.3 0.077 167.6 -40.0 0.01 -3.8 0.864 -17.9 -8.0 16 0.925 -23.1 -22.3 0.077 155.5 -38.4 0.012 -13.4 0.861 -25.0 -8.2 17 0.924 -24.3 -19.5 0.106 148.1 -39.2 0.011 -177.4 0.854 -32.2 -5.3 18 0.924 -32.5 -17.6 0.132 130.3 -33.6 0.021 165.0 0.832 -41.4 -3.7 40 B) 30 MSG Notes: d 1. S parameter is measured on a microstrip line 2 |( 20 made on 0.025 inch thick alumina carrier. The 1 S2 10 MAG input reference plane is at the end of the gate |& lead. The output reference plane is at the end MAG 0 S21 of the drain lead. / G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 36. MSG/MAG & |S21|2 vs Frequency at 5.5V/360 mA. 1616

ATF-50189 Typical Scattering Parameters at 25°C, V = 3.5V, I = 280 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.926 -134.5 29.5 29.964 111.1 -39.2 0.011 33.1 0.776 -169.9 34.4 0.2 0.928 -159.6 24.1 16.031 97.4 -37.7 0.013 27.4 0.817 -176.6 30.9 0.3 0.930 -170.1 20.7 10.841 90.8 -37.1 0.014 27.5 0.826 179.8 28.9 0.4 0.928 -176.7 18.2 8.172 86.1 -36.5 0.015 29.0 0.829 177.1 27.4 0.5 0.927 178.0 16.2 6.472 84.9 -35.9 0.016 33.4 0.834 174.0 26.1 0.6 0.929 174.0 14.7 5.424 82.4 -35.4 0.017 35.7 0.835 171.9 25.0 0.7 0.930 170.4 13.4 4.704 80.0 -34.4 0.019 37.6 0.835 169.9 23.9 0.8 0.932 167.0 12.4 4.161 77.4 -34.0 0.02 38.8 0.833 168.0 23.2 0.9 0.933 163.6 11.5 3.744 74.7 -33.2 0.022 39.6 0.838 166.1 22.3 1 0.934 160.4 10.6 3.397 72.0 -32.4 0.024 39.7 0.836 164.1 21.5 1.1 0.935 159.0 10.2 3.250 70.6 -32.0 0.025 39.6 0.836 163.1 21.1 1.2 0.936 157.5 9.8 3.103 69.2 -32.0 0.025 39.5 0.835 162.1 20.9 1.3 0.935 154.7 9.1 2.848 66.4 -31.4 0.027 39.0 0.832 160.3 20.2 1.4 0.932 151.9 8.4 2.637 63.5 -31.1 0.028 38.2 0.837 158.4 19.7 1.5 0.931 149.4 7.8 2.453 60.9 -30.5 0.03 37.6 0.836 156.5 19.0 1.6 0.933 146.8 7.2 2.292 58.1 -30.2 0.031 36.6 0.834 154.6 18.1 1.7 0.931 143.9 6.7 2.153 55.4 -29.6 0.033 35.5 0.835 152.8 17.3 1.8 0.933 141.2 6.1 2.018 52.8 -29.4 0.034 34.4 0.835 151.1 16.8 1.9 0.931 138.7 5.6 1.899 50.1 -28.9 0.036 33.0 0.834 149.4 16.1 2 0.931 136.2 5.0 1.788 47.5 -28.6 0.037 31.7 0.833 147.7 15.5 2.1 0.929 133.6 4.6 1.691 45.1 -28.4 0.038 30.3 0.834 145.9 14.9 2.2 0.930 131.0 4.1 1.609 42.5 -28.0 0.040 29.0 0.833 144.2 14.5 2.3 0.927 128.7 3.7 1.526 40.1 -27.7 0.041 27.3 0.827 142.4 13.9 2.4 0.923 126.2 3.2 1.447 37.6 -27.5 0.042 26.1 0.827 141.2 13.3 2.5 0.920 124.0 2.8 1.386 35.6 -27.3 0.043 25.0 0.848 139.6 13.1 3 0.918 111.6 0.8 1.095 23.8 -26.6 0.047 17.5 0.841 132.4 11.1 3.5 0.912 99.5 -1.0 0.891 14.7 -26.0 0.050 11.3 0.837 128.1 9.2 4 0.923 92.6 -2.3 0.770 6.7 -25.7 0.052 6.4 0.838 121.4 8.5 5 0.922 78.2 -5.0 0.565 -14.8 -25.5 0.053 -8.4 0.840 98.7 6.2 6 0.921 61.3 -7.1 0.442 -35.0 -25.4 0.054 -29.5 0.853 80.1 4.6 7 0.921 41.2 -9.5 0.336 -51.9 -26.4 0.048 -42.3 0.857 65.5 2.7 8 0.922 24.3 -11.3 0.271 -70.9 -27.1 0.044 -58.9 0.881 50.5 1.8 9 0.923 11.8 -13.4 0.215 -90.6 -29.1 0.035 -77 0.916 33.6 1.5 10 0.922 10.8 -15.3 0.171 -98.1 -32.0 0.025 -86.1 0.925 24.4 0.4 11 0.921 0.3 -16.4 0.151 -113.4 -35.9 0.016 -119.4 0.899 18.3 -1.2 12 0.924 -8.0 -17.9 0.127 -124.8 -46.0 0.005 166.3 0.943 5.9 0.2 13 0.923 -12.1 -19.2 0.11 -139.7 -37.1 0.014 75.0 0.900 -1.3 -3.4 14 0.922 -20.6 -20.6 0.093 -156.5 -35.4 0.017 37.4 0.903 -6.9 -5.0 15 0.925 -23.6 -20.4 0.095 -175.6 -38.4 0.012 5.2 0.885 -17.6 -5.6 16 0.925 -23.1 -20.4 0.096 168.4 -37.7 0.013 -2.2 0.881 -23.9 -5.7 17 0.924 -24.3 -18.3 0.121 151.1 -40.0 0.01 166.0 0.870 -30.0 -3.6 18 0.924 -32.5 -16.7 0.146 128.4 -33.6 0.021 145.9 0.846 -37.2 -2.4 40 B) 30 MSG Notes: 2 |(d 20 1. Sm apdaera omne 0te.0r2 is5 minechas tuhriecdk aolnu ma imnaic rcoasrrtireipr. lTinhee 1 S2 10 MAG input reference plane is at the end of the gate | & lead. The output reference plane is at the end AG 0 of the drain lead. M S21 / G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 37. MSG/MAG & |S21|2 vs Frequency at 3.5V/280 mA. 1717

ATF-50189 Typical Scattering Parameters at 25°C, V = 3.5V, I = 200 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.927 -132.6 30.4 33.278 111.3 -37.1 0.014 30.8 0.713 -163.4 33.8 0.2 0.922 -158.4 25.0 17.839 97.4 -35.9 0.016 23.7 0.762 -173.1 30.5 0.3 0.921 -169.2 21.6 12.071 90.7 -35.4 0.017 23.1 0.773 -177.6 28.5 0.4 0.919 -176.0 19.2 9.101 86.0 -34.9 0.018 24.1 0.776 179.3 27.0 0.5 0.918 178.6 17.2 7.208 84.6 -34.9 0.018 28.0 0.780 175.7 26.0 0.6 0.919 174.6 15.6 6.036 82.0 -34.4 0.019 30.1 0.779 173.5 25.0 0.7 0.919 171.0 14.4 5.237 79.5 -33.6 0.021 32.0 0.780 171.4 24.0 0.8 0.920 167.6 13.3 4.637 76.9 -33.2 0.022 33.1 0.778 169.4 23.2 0.9 0.922 164.2 12.4 4.159 74.1 -32.4 0.024 34.0 0.779 167.4 22.4 1 0.923 161.1 11.5 3.778 71.4 -32.0 0.025 34.4 0.778 165.6 21.8 1.1 0.924 159.7 11.2 3.617 70.0 -31.7 0.026 34.4 0.779 164.7 21.4 1.2 0.924 158.2 10.8 3.455 68.5 -31.4 0.027 34.4 0.779 163.7 21.1 1.3 0.924 155.5 10.0 3.171 65.6 -31.1 0.028 34.1 0.778 161.9 20.5 1.4 0.921 152.6 9.4 2.936 62.8 -30.5 0.030 33.6 0.779 160.0 19.9 1.5 0.920 150.2 8.7 2.734 60.1 -30.2 0.031 33.3 0.779 158.2 19.5 1.6 0.923 147.6 8.1 2.554 57.2 -29.9 0.032 32.5 0.778 156.5 19.0 1.7 0.922 144.7 7.6 2.395 54.4 -29.4 0.034 31.7 0.779 154.6 18.1 1.8 0.922 142.1 7.0 2.248 51.8 -29.1 0.035 30.8 0.778 153.1 17.2 1.9 0.921 139.6 6.5 2.116 49.2 -28.9 0.036 29.7 0.778 151.4 16.5 2 0.921 137.1 6.0 1.994 46.5 -28.4 0.038 28.7 0.777 149.7 15.9 2.1 0.919 134.6 5.5 1.889 44.0 -28.2 0.039 27.4 0.778 148.0 15.3 2.2 0.920 132.0 5.1 1.792 41.3 -28.0 0.040 26.3 0.777 146.4 14.8 2.3 0.918 129.7 4.6 1.690 38.8 -27.7 0.041 25.1 0.777 145.1 14.3 2.4 0.914 127.1 4.2 1.618 36.4 -27.5 0.042 23.8 0.775 143.5 13.7 2.5 0.910 125.0 3.8 1.549 34.1 -27.3 0.043 22.8 0.792 141.8 13.3 3 0.909 112.7 1.8 1.226 22.1 -26.6 0.047 16.3 0.790 135.0 11.3 3.5 0.912 99.5 0.0 1.000 12.5 -26.0 0.050 10.7 0.796 131.2 9.8 4 0.923 92.6 -1.2 0.869 2.9 -25.7 0.052 5.2 0.801 122.7 9.1 5 0.922 78.2 -4.0 0.633 -18.0 -25.0 0.056 -7.1 0.812 102.1 6.7 6 0.921 61.3 -6.2 0.488 -39.4 -25.5 0.053 -24.3 0.823 84.0 5.0 7 0.921 41.2 -8.7 0.369 -57.1 -26.0 0.050 -41.5 0.822 69.2 2.9 8 0.922 24.3 -10.6 0.294 -76.8 -26.7 0.046 -58.0 0.854 53.9 1.9 9 0.923 11.8 -12.8 0.230 -97.3 -28.4 0.038 -75.9 0.890 36.3 1.2 10 0.922 10.8 -15.1 0.176 -105.0 -31.1 0.028 -84.6 0.901 26.6 -0.3 11 0.921 0.3 -16.1 0.156 -120.3 -34.4 0.019 -113.3 0.877 19.8 -1.7 12 0.924 -8.0 -17.9 0.128 -132.2 -44.4 0.006 -164.6 0.921 6.7 -1.2 13 0.923 -12.1 -19.2 0.110 -146.9 -39.2 0.011 75.2 0.881 -1.4 -4.2 14 0.922 -20.6 -20.8 0.091 -161.8 -36.5 0.015 34.4 0.885 -7.8 -6.0 15 0.925 -23.6 -20.8 0.091 -177.7 -38.4 0.012 -0.7 0.868 -19.5 -6.5 16 0.925 -23.1 -20.6 0.093 168.1 -37.7 0.013 -7.2 0.867 -26.6 -6.4 17 0.924 -24.3 -18.4 0.120 156.0 -41.9 0.008 -177.4 0.857 -34.0 -4.2 18 0.924 -32.5 -16.5 0.150 132.5 -34.9 0.018 158.2 0.833 -42.9 -2.5 40 30 MSG B) Notes: d 1. S parameter is measured on a microstrip line 2 |( 20 made on 0.025 inch thick alumina carrier. The 1 S2 10 MAG input reference plane is at the end of the gate | & lead. The output reference plane is at the end AG 0 of the drain lead. M S21 / G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 38. MSG/MAG & |S21|2 vs Frequency at 3.5V/200 mA. 1818

ATF-50189 Typical Scattering Parameters at 25°C, V = 3.5V, I = 360 mA DS DS Freq. S S S S MSG/MAG 11 21 12 22 GHz Mag. Ang. dB Mag. Ang. dB Mag. Ang. Mag. Ang. dB 0.1 0.925 -134.2 30.4 33.142 110.8 -38.4 0.012 31.9 0.73 -166.7 34.4 0.2 0.923 -159.4 25.0 17.732 97.1 -37.1 0.014 25.7 0.77 -174.9 31.0 0.3 0.924 -170.0 21.6 11.996 90.5 -36.5 0.015 25.7 0.78 -179.0 29.0 0.4 0.923 -176.6 19.1 9.042 85.8 -35.9 0.016 27.1 0.79 178.1 27.5 0.5 0.922 178.1 17.1 7.165 84.5 -35.9 0.016 31.4 0.79 174.8 26.5 0.6 0.923 174.1 15.6 6.003 81.9 -34.9 0.018 33.6 0.79 172.6 25.2 0.7 0.924 170.5 14.3 5.206 79.4 -34.4 0.019 35.5 0.79 170.5 24.4 0.8 0.925 167.1 13.3 4.608 76.8 -34.0 0.02 36.6 0.79 168.5 23.6 0.9 0.927 163.6 12.3 4.138 74.0 -33.2 0.022 37.5 0.79 166.5 22.7 1 0.928 160.5 11.5 3.757 71.2 -32.4 0.024 37.7 0.79 164.6 21.9 1.1 0.929 159.1 11.1 3.596 69.8 -32.0 0.025 37.7 0.79 163.6 21.6 1.2 0.929 157.6 10.7 3.435 68.3 -32.0 0.025 37.6 0.79 162.6 21.4 1.3 0.929 154.8 10.0 3.152 65.4 -31.7 0.026 37.1 0.79 160.8 20.8 1.4 0.925 152.0 9.3 2.918 62.5 -31.1 0.028 36.6 0.79 158.9 20.2 1.5 0.926 149.5 8.7 2.713 59.9 -30.8 0.029 36.1 0.79 157.1 19.1 1.6 0.927 146.8 8.1 2.535 57.0 -30.2 0.031 35.1 0.79 155.3 18.5 1.7 0.927 144.1 7.5 2.380 54.1 -29.9 0.032 34.1 0.79 153.4 17.8 1.8 0.927 141.3 7.0 2.231 51.5 -29.4 0.034 33.0 0.79 151.8 17.1 1.9 0.926 138.9 6.4 2.098 48.8 -29.1 0.035 31.8 0.79 150.0 16.5 2 0.926 136.4 5.9 1.977 46.2 -28.9 0.036 30.6 0.79 148.4 15.9 2.1 0.923 133.8 5.4 1.871 43.6 -28.6 0.037 29.3 0.79 146.6 15.3 2.2 0.926 131.2 5.0 1.777 41.0 -28.2 0.039 28.1 0.79 144.9 14.9 2.3 0.922 128.8 4.5 1.684 38.6 -28.0 0.04 26.6 0.79 143.5 14.3 2.4 0.919 126.3 4.1 1.600 36.0 -27.7 0.041 25.3 0.79 142.0 13.8 2.5 0.915 124.2 3.7 1.531 33.8 -27.5 0.042 24.2 0.80 140.3 13.3 3 0.913 111.9 1.6 1.208 21.7 -26.7 0.046 17.2 0.80 133.2 11.3 3.5 0.912 99.5 -0.2 0.982 12.2 -26.6 0.047 10.0 0.80 124.8 9.6 4 0.923 92.6 -1.5 0.846 3.8 -26.4 0.048 2.8 0.81 116.4 9.0 5 0.922 78.2 -4.2 0.618 -18.4 -26.0 0.05 -11.7 0.82 99.5 6.8 6 0.921 61.3 -6.4 0.477 -39.3 -25.7 0.052 -26.1 0.83 82.7 5.0 7 0.921 41.2 -8.9 0.360 -56.8 -26.0 0.05 -39.4 0.83 66.6 2.8 8 0.922 24.3 -10.9 0.286 -76.6 -26.7 0.046 -55.9 0.86 51.6 1.8 9 0.923 11.8 -12.9 0.226 -97.3 -28.4 0.038 -73.5 0.90 34.5 1.3 10 0.922 10.8 -15.0 0.177 -104.9 -31.1 0.028 -81.6 0.91 25.1 0 11 0.921 0.3 -16.4 0.152 -121.3 -34.4 0.019 -108.3 0.89 18.9 -1.6 12 0.924 -8.0 -18.1 0.124 -134.4 -46.0 0.005 -147.3 0.93 6.5 -1.0 13 0.923 -12.1 -19.6 0.105 -148.8 -40.0 0.01 71.0 0.89 -0.7 -4.4 14 0.922 -20.6 -21.2 0.087 -163.5 -37.1 0.014 30.2 0.89 -6.3 -6.2 15 0.925 -23.6 -21.4 0.085 -178.8 -39.2 0.011 -4.9 0.88 -17.1 -6.7 16 0.925 -23.1 -21.2 0.087 167.6 -37.7 0.013 -8.8 0.87 -23.1 -6.9 17 0.924 -24.3 -18.6 0.117 155.7 -41.9 0.008 -173.5 0.87 -29.2 -4.0 18 0.924 -32.5 -16.8 0.145 133.2 -35.4 0.017 161.7 0.85 -36.3 -2.4 40 30 MSG B) 2 |(d 20 N1.oSte psa:rameter is measured on a microstrip line 1 S2 10 MAG made on 0.025 inch thick alumina carrier. The | & input reference plane is at the end of the gate G 0 A lead. The output reference plane is at the end M S21 / of the drain lead. G-10 S M -20 -30 0 2 4 6 8 10 12 14 16 18 FREQUENCY (GHz) Figure 39. MSG/MAG & |S21|2 vs Frequency at 3.5V/360 mA. 1919

Device Models, PCB Layout and Stencil Device Refer to Avago’s Web Site: www.avagotech.com/view/rf Ordering Information Part Number No. of Devices Container ATF-50189-BLK 100 7” Tape/Reel ATF-50189-TR1 3000 13” Tape/Reel SOT89 Package Dimensions D D POLISH D1 D1 E1 OR E1 E E L L e e C S e1 S e1 D2 1.625 D1 0.2 HDEAPLTFH E T0C.1H0IN0G MATTE FINISH 0.77 1.23 OR 2.35 A E b b1 b POLISH 1.24 b1 Dimensions in mm Dimensions in inches Symbols Minimum Nominal Maximum Minimum Nominal Maximum A 1.40 1.50 1.60 0.055 0.059 0.063 L 0.89 1.04 1.20 0.0350 0.041 0.047 b 0.36 0.42 0.48 0.014 0.016 0.018 b1 0.41 0.47 0.53 0.016 0.018 0.030 C 0.38 0.40 0.43 0.014 0.015 0.017 D 4.40 4.50 4.60 0.173 0.177 0.181 D1 1.40 1.60 1.75 0.055 0.062 0.069 D2 1.45 1.65 1.80 0.055 0.062 0.069 E 3.94 - 4.25 0.155 - 0.167 E1 2.40 2.50 2.60 0.094 0.098 0.102 e1 2.90 3.00 3.10 0.114 0.118 0.122 S 0.65 0.75 0.85 0.026 0.030 0.034 e 1.40 1.50 1.60 0.054 0.059 0.063 20

Device Orientation REEL CARRIER GX GX GX GX TAPE 0 0 0 0 USER FEED COVER TAPE DIRECTION Tape Dimensions Ø 1.5 +0.1/-0.0 8.00 2.00 ± .05 SEE NOTE 3 Ø 1.50 MIN. 4.00 SEE NOTE 1 1.75 ± .10 0.30 ± .05 A R 0.3 MAX. 5.50 ± .05 SEE NOTE 3 Bo 12.0 ± .3 A Ko R 0.3 TYP. Ao SECTION A - A Ao = 4.60 DIMENSIONS IN MM Bo = 4.90 Ko = 1.90 NOTES: 1. 10 SPROCKET HOLE PITCH CUMULATIVE TOLERANCE ±0.2 2. CAMBER IN COMPLIANCE WITH EIA 481 3. POCKET POSITION RELATIVE TO SPROCKET HOLE MEASURED AS TRUE POSITION OF POCKET, NOT POCKET HOLE 21

Reel Dimensions – 13” Reel R LOKREEL R MINNEAPOLIS USA U.S PAT 4726534 102.0 ATTENTION 1.5 REF Electrostatic Sensitive Devices Safe Handling Required 88 REF 330.0 REF "A" 96.5 6 PS Detail "B" +0.3 (MEASURED AT HUB) 8.4 6 - 0.2 11.1 MAX. (MEASURED AT HUB) PS Detail "A" Ø 20.2 Dimensions in mm M IN Ø 13.0+-00..25 2.0 ± 0.5 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 © 2005-2013 Avago Technologies. All rights reserved. AV02-0049EN - November 11, 2013