VMMK-3503-TR1G Avago Technologies US Inc., VMMK-3503-TR1G Datasheet

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... VMMK-3503 0 GHz Variable Gain Amplifier in SMT Package Data Sheet Description The VMMK-3503 is a small and easy-to-use, broadband, variable gain amplifier operating in various frequency bands from 0.5-18 GHz housed in the Avago Tech- nologies’ industry-leading and revolutionary sub-min- iature chip scale package (GaAsCap wafer scale leadless ...

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Electrical Specifications [1] Table 1. Absolute Maximum Rating Symbol Parameters/Condition Vdd Supply Voltage (RF Output) Vc Gain Control Voltage [2] Id Supply Current Input Power (RF Input) in, max P Total Power Dissipation diss Tch Max Channel ...

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Product Consistency Distribution Charts at 6.0 GHz, Vdd = 1.8 V unless specified otherwise LSL 0.046 0.05 0.054 0.058 0.062 ID_MAX_1.8 @ Vdd = 1.8 V, Mean = 58 mA, LSL = ...

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... VMMK-3503 Typical Performance Data obtained using GSG probing on substrate, broadband bias-T’s, losses calibrated out to the package reference plane Ω unless noted 25° C, Vdd = out -10 -20 -30 - Freq (GHz) Figure 1. Gain Range vs. Vcontrol 0 -5 -10 -15 - Freq (GHz) Figure 3. Input Return Loss vs. Vc ...

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... VMMK-3503 Typical Performance = 50 Ω unless noted 25° C, Vdd = out Freq (GHz) Figure 7. Input IP3 vs. Freq Freq (GHz) Figure 9. Saturated Power 0. 1 Freq (GHz) Figure 11. Noise Figure at Min and Max Gain 1 0. Figure 8. Input IP3 vs -10 - -20 Figure 10. Gain vs. Pin at 6 GHz ...

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... VMMK-3503 Typical Performance = 50 Ω unless noted 25° 1 out Freq (GHz) Figure 13. Max. Gain over Vdd Freq (GHz) Figure 15. Input IP3 over Vdd Figure 14. Noise Figure over Vdd Vdd = Vdd = 4 V Vdd = Figure 16. Output P1dB over Vdd Freq (GHz Freq (GHz ...

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... VMMK-3503 Typical Performance (T = 25° C, Vdd = 1 Freq (GHz) Figure 17. Max Gain (Vc = 1.8 V) over Temp Freq (GHz) Figure 19. Noise Figure (Vc = 1.8 V) over Temp Freq (GHz) Figure 21. Input IP3 over Temp Ω unless noted out 0 -40° C +25° +85° -12 -16 - Figure 18. Min. Gain (Vc = 0.65 V) over Temp ...

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Typical Scattering Parameters (Data obtained using GSG probing on substrate, broadband bias-T’s, losses calibrated out to the package reference plane.) Maximum Gain State T = 25° 1 ...

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Typical Scattering Parameters (Data obtained using GSG probing on substrate, broadband bias-T’s, losses calibrated out to the package reference plane.) Maximum Gain State T = 25° 0. S11 ...

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... L1 A layout of a typical demo board is shown in Figure 25. The demo board uses small 0402 style surface mount compo- nents. Due to the broad bandwidth of the VMMK-3503 devising a bias decoupling network to work well over the entire 0 GHz frequency range will be a challenge. Conical wound broad band inductors will work well but may be pricy ...

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... Personal grounding worn at all times when handling these devices. For more detail, refer to Avago Application Note A004R: Electro- static Discharge Damage and Control. Ordering Information Part Number VMMK-3503-BLKG VMMK-3503-TR1G Dimensions Symbol Min (mm) Max (mm) E 0.500 0.585 D 1 ...

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Tape Dimensions Note R0.1 5° (Max) Scale 5:1 AA SECTION Unit: mm Symbol Spec. K1 – Po 4.0±0.10 P1 4.0±0.10 P2 2.0±0.05 Do 1.55±0.05 D1 0.5±0.05 E 1.75±0.10 F 3.50±0.05 10Po 40.0±0.10 W ...