HFA3783IN96 INTERSIL [Intersil Corporation], HFA3783IN96 Datasheet - Page 18

HFA3783IN96

Manufacturer Part Number

HFA3783IN96

Description

I/Q Modulator/Demodulator and Synthesizer

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.HFA3783IN96.pdf (34 pages)

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most often used VCO’s in the market have positive KVCO’s

where the VCO frequency increases with an increase in

control voltage. In this case, the charge pump current shall

“source” current (to the main capacitor of the loop ﬁlter)

when the VCO frequency becomes less than the desired

frequency of operation. The phase comparison and charge

pump output behavior in a open loop system is illustrated in

Figure 5. The comparator’s inputs (the top two waveforms of

Figure 5 are from the N and R counters. The output from the

“N” counter and the prescaler, labelled as “VCO/[P*B+A]”

shows a lower frequency than the output from the “R”

counter labeled “REF/R”. REF/R is usually called “reference”

frequency. The bottom waveform represents the charge

pump sourcing current as it has been programmed. Because

it is an open loop system, the charge pump current pulse

width will increase and follow the phase comparator’s output.

The charge pump signal can be developed across a resistor

connected between pin 22 and a power supply of half the

is higher than the REF/R frequency, the bottom waveform

would have negative pulse width variations indicating the

Charge Pump sinking current.

The closed loop concept can be understood intuitively by

observing the bottom waveform and noticing the tendency of

the Charge Pump to “charge” a capacitor (loop ﬁlter) and

increase the VCO voltage control accordingly. As the

VCO/[P*B+A] frequency becomes higher than the REF/R

frequency, the Charge Pump begins to sink current and the

VCO control voltage begins to drop. The process would

continue in equilibrium with expected sharp reverting polarity

voltage. In the case where the VCO/[P*B+A] frequency

REF

FIGURE 6. SIMPLIFIED CP AND LOCK DETECT OUTPUT WAVEFORMS

HFA3783

pulses at the REF/R reference frequency. Figure 6 depicts a

simple Charge Pump polarity concept and includes the

output of the Lock Detect Pin of the HFA3783. This pin has

other applications and will be covered in the next section.

PLL Synthesizer and DC Offset Clock

Programming

A three wire CMOS Serial interface (CLK, DATA, LE)

programs various counters and operational modes of the

HFA3783 PLL. It also programs the DC offset adjust counter

and operation of the LPF section. Figure 1 in the

Speciﬁcation section shows the Timing Diagram for this

interface.

Short clock periods in the order of 20ns can be used to

program this interface. The serial data is clocked on the

rising edge of the serial clock into a serial 20-bit shift register

with the MSB ﬁrst. See the PLL synthesizer and DC Clock

Programming Table for details. The serial register is always

active when the LE pin is held low. On the rising edge of the

LE pin, the serial register is loaded and latched into the

addressed registers for the particular function. The two least

signiﬁcant bits address the intended register for loading the

serial data. This interface has been designed for a minimum

LE pulse width. There is no need to discontinue the clock

during loading of the 4 intended registers.

NOTE: Upon a rising edge on LE, the HFA3783 PLL unlocks

the loop during a random period varying from 0 to

1/(reference frequency). Fast frequency hopping

applications may be affected during this time.

HFA3783IN96 INTERSIL [Intersil Corporation], HFA3783IN96 Datasheet - Page 18

HFA3783IN96

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