VMMK-3503-TR1G Avago Technologies US Inc., VMMK-3503-TR1G Datasheet
VMMK-3503-TR1G
Specifications of VMMK-3503-TR1G
Related parts for VMMK-3503-TR1G
VMMK-3503-TR1G Summary of contents
Page 1
... 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 ...
Page 2
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 ...
Page 3
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 = ...
Page 4
... 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 ...
Page 5
... 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 ...
Page 6
... 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 ...
Page 7
... 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 ...
Page 8
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 ...
Page 9
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 ...
Page 10
... 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 ...
Page 11
... 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 ...
Page 12
Tape Dimensions Note R0.1 5° (Max) Scale 5:1 AA 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 ...