8430B-71 Data Sheet
©2015 Integrated Device Technology, Inc November 30, 20152
automatically occur during power-up. The TEST output is LOW when
operating in the parallel input mode. The relationship between the
VCO frequency, the crystal frequency and the M divider is defi ned
as follows:
The M value and the required values of M0 through M8 are shown
in Table 3B, Programmable VCO Frequency Function Table. Valid M
values for which the PLL will achieve lock for a 16MHz reference are
defi ned as 125 ≤ M ≤ 350. The frequency out is defi ned as follows:
Serial operation occurs when nP_LOAD is HIGH and S_LOAD is
LOW. The shift register is loaded by sampling the S_DATA bits with
the rising edge of S_CLOCK. The contents of the shift register are
loaded into the M divider and N output divider when S_LOAD tran-
sitions from LOW-to-HIGH. The M divide and N output divide values
are latched on the HIGH-to-LOW transition of S_LOAD. If S_LOAD
is held HIGH, data at the S_DATA input is passed directly to the M
divider and N output divider on each rising edge of S_CLOCK. The
serial mode can be used to program the M and N bits and test bits
T1 and T0. The internal registers T0 and T1 determine the state of
the TEST output as follows:
NOTE: The functional description that follows describes operation
using a 16MHz crystal. Valid PLL loop divider values for different
crystal or input frequencies are defi ned in the Input Frequency
Characteristics, Table 5, NOTE 1.
The 8430B-71 features a fully integrated PLL and therefore re-
quires no external components for setting the loop bandwidth. A
parallel-resonant, fundamental crystal is used as the input to the
on-chip oscillator. The output of the oscillator is divided by 16 prior
to the phase detector. With a 16MHz crystal, this provides a 1MHz
reference frequency. The VCO of the PLL operates over a range of
250MHz to 700MHz. The output of the M divider is also applied to
the phase detector.
The phase detector and the M divider force the VCO output
frequency to be 2M times the reference frequency by adjusting
the VCO control voltage. Note that for some values of M (either
too high or too low), the PLL will not achieve lock. The output
of the VCO is scaled by a divider prior to being sent to each of the
LVPECL output buffers. The divider provides a 50% output duty cycle.
The programmable features of the 8430B-71 support two in-
put modes to program the M divider and N output divider.
The two input operational modes are parallel and serial. Fig-
ure 1 shows the timing diagram for each mode. In parallel
mode, the nP_LOAD input is initially LOW. The data on inputs
M0 through M8 and N0 through N2 is passed directly to the M
divider and N output divider. On the LOW-to-HIGH transition of
the nP_LOAD input, the data is latched and the M divider remains
loaded until the next LOW transition on nP_LOAD or until a serial
event occurs. As a result, the M and N bits can be hardwired to set
the M divider and N output divider to a specifi c default state that will
FUNCTIONAL DESCRIPTION
N
fout
=
fVCO
=
16
2M
fxtal
x
N
16
fVCO =
fxtal
x 2M
T1 T0 TEST Output
0 0 LOW
0 1 S_Data clocked into register
1 0 Output of M divider
1 1 CMOS Fout
FIGURE 1. PARALLEL & SERIAL LOAD OPERATIONS