EVAL-ADF7021-VDB2Z Analog Devices Inc, EVAL-ADF7021-VDB2Z Datasheet - Page 23

EVAL-ADF7021-VDB2Z

Manufacturer Part Number

EVAL-ADF7021-VDB2Z

Description

868 - 870MHz - EVALUATION BOARD

Manufacturer

Analog Devices Inc

Type

Transceiverr

Datasheet

1.EVAL-ADF7021-VDB2Z.pdf (60 pages)

Specifications of EVAL-ADF7021-VDB2Z

Frequency

868MHz ~ 870MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

ADF7021

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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VOLTAGE CONTROLLED OSCILLATOR (VCO)

To minimize feedthrough and spurious emissions, the external

VCO must be chosen to operate at a minimum of twice the

required RF frequency. The VCO frequency is divided by 2 inside

the synthesizer loop, providing the required frequency for the

transmitter and for the local oscillator (LO) of the receiver. For

improved phase noise performance, an additional divide-by-2

can be enabled by setting the RF_DIVIDE_BY_2 bit (Bit DB18)

in Register 1.

As an example, for 80 MHz operation, a 160 MHz external VCO

could be used with the RF_DIVIDE_BY_2 bit disabled, or a

320 MHz VCO could be used with the RF_DIVIDE_BY_2 bit

enabled to support operation in the 80 MHz band. Assuming

that both VCOs have similar phase noise performance, the

320 MHz design using the additional divide-by-2 should result

in improved transmit ACP, as well as improved ACR, blocking,

and image rejection in the receiver.

The maximum VCO frequency of operation supported on the

ADF7021-V is 1920 MHz, which results in a maximum RF

channel frequency of 960 MHz using a 2× VCO or 480 MHz

using a 4× VCO.

TCXO/XTAL

REF

ADF7021-V

Figure 37. Voltage Controlled Oscillator (VCO)

÷R

PFD/CP

COMPONENTS

FILTER

LOOP

EXTERNAL

÷N

FREQUENCY

SYNTH

VCO

÷2

MUX

Rev. 0 | Page 23 of 60

The VCO tuning voltage can be checked for a particular RF

output frequency by measuring the voltage on the CPOUT pin

when the part is fully powered up in transmit or receive mode.

The VCO tuning range of the external VCO must be 0.2 V to 2 V.

The input impedance of the L2 pin is programmable and can

be selected to have a high impedance value or 50 Ω impedance,

depending on the VCO selected. The impedance of this pin can

be set using the BUFFER_IMPEDANCE bit (Bit DB17) in

CHOOSING A VCO FOR BEST SYSTEM

PERFORMANCE

The interaction between the RF VCO frequency and the refer-

ence frequency can lead to fractional spur creation. When the

synthesizer is in fractional mode (that is, the RF VCO and

reference frequencies are not integer related), spurs can appear

on the VCO output spectrum at an offset frequency that

corresponds to the difference frequency between an integer

multiple of the reference and the VCO frequency.

These spurs are attenuated by the loop filter. They are more

noticeable on channels close to integer multiples of the reference

where the difference frequency may be inside the loop bandwidth

(thus, the name integer boundary spurs). The occurrence of

these spurs is rare because the integer frequencies are around

multiples of the reference, which is typically >10 MHz. To avoid

having very small or very large values in the fractional register,

choose a suitable reference frequency.

In addition to spurious considerations, the selection of a high

performance VCO with very low phase noise is essential to

minimize the ACP performance of the transmitter and to

maximize the ACR and blocking resilience of the receiver.

ADF7021-V

EVAL-ADF7021-VDB2Z Analog Devices Inc, EVAL-ADF7021-VDB2Z Datasheet - Page 23

EVAL-ADF7021-VDB2Z

Specifications of EVAL-ADF7021-VDB2Z

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