AD652SW AD [Analog Devices], AD652SW Datasheet - Page 13

Manufacturer Part Number

AD652SW

Description

Monolithic Synchronous Voltage-to-Frequency Converter

Manufacturer

AD [Analog Devices]

Datasheet

1.AD652SW.pdf (16 pages)

SVFC Demultiplexer

The demultiplexer needed to separate the combined signals is

shown in Figure 23. A phase locked loop drives another four

phase clock chip to lock onto the reconstructed clock signal.

The sync pulses are distinguished from the data pulses by their

shorter duration. Each falling edge on the multiplex input signal

triggers the one-shot, and at the end of this one-shot pulse the

multiplex input signal is sampled by a D-type flip-flop. If the

signal is high, then the pulse was short (a sync pulse) and the

Q output of the D-flop goes low. The D-flop is cleared a short

time (two gate delays) later, and the clock is reconstructed as a

stream of short, low-going pulses. If the Multiplex input is a

REV. B

Figure 24. Multiplexer Waveforms

Figure 23. SVFC Demultiplexers

–13–

data pulse, then when the D-flop samples at the end of the one-

shot period, the signal will still be low and no pulse will appear

at the reconstructed clock output. These waveforms are shown

in Figure 25.

If it is desired to recover the individual frequency signals, then

the multiplex input is sampled with a D-flop at the appropriate

time as determined by the rising edge of the various phases

generated by the clock chip. These frequency signals can be

counted as a ratio relative to the reconstructed clock, so it is not

even necessary for the transmitter to be crystal controlled as

shown here.

Figure 25. Demultiplexer Waveforms

AD652