RF2051
Fractional-N PLL
The IC contains a charge-pump based fractional-N phase locked loop (PLL) for controlling the three VCOs. The PLL includes
automatic calibration systems to counteract the effects of process and environmental variations, ensuring repeatable lock-
time and noise performance. The PLL is intended to use a reference frequency signal of 10MHz to 104MHz. A reference
divider (divide by 1 to divide by 7) is supplied and should be programmed to limit the frequency at the phase detector to a max-
imum of 52MHz. The reference divider bypass is controlled by bit CLK DIV_BYP, set low to enable the reference divider and set
high for divider bypass (divide by 1). The remaining three bits CLK DIV<15:13> set the reference divider value, divide by 2
(010) to 7 (111) when the reference divider is enabled.
Two PLL programming banks are provided, the first bank is preceded by the label PLL1 and the second bank is preceded by the
label PLL2. For the RF2051 these banks are used to program mixer 1 and mixer 2 respectively, and are selected automatically
as the mixer is selected (using the MODE pin).
The PLL will lock the VCO to the frequency FVCO according to:
FVCO=NEFF*FOSC/R
where NEFF is the programmed fractional N divider value, FOSC is the reference input frequency, and R is the programmed R
divider value (1 to 7).
The N divider is a fractional divider, containing a dual-modulus prescaler and a digitally spur-compensated fractional sequence
generator to allow fine frequency steps. The N divider is programmed using the N and NUM bits as follows:
First determine the desired, effective N divider value, NEFF
:
NEFF=FVCO*R/FOSC
N(9:0) should be set to the integer part of NEFF. NUM should be set to the fractional part of NEFF multiplied by 224=16777216.
Example: VCO1 operating at 2220MHz, 23.92MHz reference frequency, the desired effective divider value is:
N
EFF=FVCO *R / FOSC=2220 *1 / 23.92=92.80936454849.
The N value is set to 92, equal to the integer part of NEFF, and the NUM value is set to the fractional portion of NEFF multiplied
by 224
:
NUM=0.80936454849 * 224 =13,578,884.
Converting N and NUM into binary results in the following:
N=0 0101 1100
NUM=1100 1111 0011 0010 1000 0100
So the registers would be programmed:
P1_N (or P2_N)=0 0101 1100
P1_NUM_MSB (or P2_NUM_MSB)=1100 1111 0011 0010
P1_NUM_LSB (or P2_NUM_LSB)=1000 0100
The maximum NEFF is 511, and the minimum NEFF is 15, when in fractional mode. The minimum step size is FOSC/R*224. Thus
for a 23.92MHz reference, the frequency step size would be 1.4Hz. The minimum reference frequency that could be used to
program a frequency of 2400MHz (using VCO1) is 2400/511, 4.697MHz (approx).
7628 Thorndike Road, Greensboro, NC 27409-9421 · For sales or technical
support, contact RFMD at (+1) 336-678-5570 or sales-support@rfmd.com.
12 of 39
DS140110