rf2051 RF Micro Devices, rf2051 Datasheet - Page 14

rf2051

Manufacturer Part Number

rf2051

Description

High Performance Wideband Rf Synthesizer/vco With Integrated Rf Mixers

Manufacturer

RF Micro Devices

Datasheet

1.RF2051.pdf (40 pages)

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Current page: 14 of 40
Download datasheet (822Kb)

RF2051

Crystal Oscillator

The PLL may be used with an external reference source, or its own crystal oscillator. If an external source (such as a TCXO) is

being used it should be AC-coupled into one of the XO inputs, and the other input should be AC-coupled to ground.

A crystal oscillator typically takes many milliseconds to settle, and so for applications requiring rapid pulsed operation of the

PLL (such as a TDMA system, or Rx/Tx half-duplex system) it is necessary to keep the XO running between bursts. However,

when the PLL is used less frequently, it is desirable to turn off the XO to minimize current draw. The REFSTBY register is pro-

vided to allow for either mode of operation. If REFSTBY is programmed high, the XO will continue to run even when ENBL is

asserted low. Thus the XO will be stable and a clock is immediately available when ENBL is asserted high, allowing the chip to

assume normal operation. On cold start, or if REFSTBY is programmed low, the XO will need a warm-up period before it can pro-

vide a stable clock. The length of this warm-up period will be dependant on the crystal characteristics.

The crystal oscillator circuit contains internal loading capacitors. No external loading capacitors are required, dependant on

the crystal loading specification. The internal loading capacitors are a combination of fixed capacitance, and an array of

switched capacitors. The switched capacitors can be used to tune the crystal oscillator onto the required center frequency and

minimize frequency error. The PCB stray capacitance and oscillator input and output capacitance will also contribute to the

crystal’s total load capacitance. The register settings in the CFG4 register for the switched capacitors are as follows:

The on chip fixed capacitance is approximately 4.2pF.

Wideband Mixer

The RF2051 includes two wideband, double-balanced Gilbert cell mixers. They support RF/IF frequencies of 30MHz to

2500MHz using the internal VCO to provide the LO frequency of 300MHz to 2400MHz. Each mixer has an input port and an

output port that can be used for either IF or RF, i.e. for up conversion or down conversion. The mixer current can be pro-

grammed to between 15mA and 35mA depending on linearity requirements, using the MIX1_IDD<3.0> word for mixer 1 and

the MIX2_IDD<3.0> word for mixer 2, both of which are in the CFG2 register. The majority of the mixer current is sourced

through the output pins via either a centre-tapped balun or an RF choke in the external matching circuitry to the supply.

The RF mixer input and output ports are differential and require simple matching circuits optimized to the specific application

frequencies. A conversion gain of approximately -3dB to 0dB is achieved with 100Ω differential input impedance, and the out-

puts driving 200Ω differential load impedance. Increasing the mixer output load increases the conversion gain.

The mixer has a broadband common gate input. The input impedance is dominated by the resistance set by the mixer 1/gm

term, which is inversely proportional to the mixer current setting. The resistance will be approximately 85Ω at the default mixer

current setting (100). There is also some shunt capacitance at the mixer input, and the inductance of the bond wires to con-

sider at higher frequencies.

The mixer output is high impedance, consisting of a resistance of approximately 2kΩ in parallel with some capacitance. The

mixer output does not need to be matched as such, just to see a resistive load. A higher resistance load will give higher output

voltage and gain. A shunt inductor can be used to resonate with the mixer output capacitance at the frequency of interest. This

inductor may not be required at lower frequencies where the impedance of the output capacitance is less significant. At higher

output frequencies the inductance of the bond wires becomes more significant.

For more information about the mixer port impedances and matching, please refer to the RF205x Family Application Note on

Matching Circuits and Baluns.

14 of 40

• Coarse Tune XO_CT (4 bits) 15*0.55pF, default 0100

• Fine Step XO_CR_S (1 bit) 1*0.25pF, default 0

7628 Thorndike Road, Greensboro, NC 27409-9421 · For sales or technical

support, contact RFMD at (+1) 336-678-5570 or sales-support@rfmd.com.

Rev A1 DS090106

rf2051 RF Micro Devices, rf2051 Datasheet - Page 14

rf2051

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