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MAX2601 Datasheet(PDF) 2 Page - Maxim Integrated Products |
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MAX2601 Datasheet(HTML) 2 Page - Maxim Integrated Products |
2 / 4 page MAX2602 Evaluation Kit 2 _______________________________________________________________________________________ 4) Connect the same power supply through a separate lead to the EV kit’s VB terminal. 5) Verify that all the connections are correct to avoid damaging the transistor or your test equipment. 6) Turn on the 3.6V supply. Note the supply current with the RF generator off. It should be around 100mA. 7) Activate the RF signal generator and slowly increase the generator’s output power to 20dBm. At this time, the supply current should be about 500mA, and the output power should be 30dBm. _______________Detailed Description Figure 1 is the schematic for the MAX2602 EV kit as shipped. The circuit consists of four blocks: power-sup- ply decoupling, a bias network, and both input and out- put matching networks. The amplifier built on this board is biased for class AB operation at 1W of output power, and provides high efficiency. Supply Decoupling Circuitry and Grounding Capacitors C8 and C10 provide decoupling for VC. The collector has two separate pins: one for the VC input (con- nected through choke L2), and one for the RF output. The most important contact for the MAX2602 is not on the top of the board; it is the bottom-side emitter con- tact that is connected to ground. This contact keeps emitter inductance as low as possible, as excessive emitter inductance can degrade the performance of any RF common-emitter amplifier. The bottom-side con- tact is also the principal path for heat dissipation, and must be connected to a large ground plane. Biasing Capacitors C5, C9, and C11 provide decoupling for the bias supply. The transistor’s bias current is set by the internal biasing diode’s current. This current is set by the following equation: The collector current is scaled to the bias current: IC = 15IB. R3 is used as a jumper. The transistor’s base is biased through R2 and L1 (a choke). For more infor- mation on the internal biasing diode’s operation, refer to the MAX2601/MAX2602 data sheet. Input Matching Network The transistor’s RF input does not present a 50 Ω impedance, so a matching network is required for prop- er operation in a 50 Ω environment. This network con- sists of capacitor C1 to ground, approximately 1 inch (or 2.5cm) of the 50 Ω transmission line (T1), a DC- blocking capacitor (C6), and a shunt capacitor at the transistor base (C4). I = V - 0.75V R1 B B VB VC R1 430 Ω R3 0 Ω T1 T2 L2 18.5nH C9 0.1 µF C1 2pF C5 1000pF C10 0.1 µF C8 1000pF C11 1000pF C12 1000pF C6 1000pF C7 1000pF L1 100nH IN R2 24 Ω C4 12pF 1 3 8 2, 6, 7 BACK-SIDE SLUG 4 5 C2 2pF OUT C3 10pF U1 Figure 1. MAX2602 EV Kit Schematic |
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Similar Description - MAX2601 |
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