ICS1574B Datasheet, PDF(5/12 Page) Integrated Circuit Systems – User Programmable Laser Engine Pixel Clock Generator

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ICS1574B Datasheet, PDF (5/12 Pages) Integrated Circuit Systems – User Programmable Laser Engine Pixel Clock Generator

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ICS1574B

Reference Oscillator

and Crystal Selection

The ICS1574B has circuitry on-board to implement a

Pierce oscillator with the addition of only one external

component, a quartz crystal. Pierce oscillators operate the

crystal

anti- (also called parallel-) resonant mode. See the AC

Characteristics for the effective capacitive loading to

specify when ordering crystals.

Series-resonant crystals may also be used with the

ICS1574B. Be aware that the oscillation frequency will be

slightly higher than the frequency that is stamped on the

can (typically 0.025 â 0.05%).

As the entire operation of the phase-locked loop depends

on having a stable reference frequency, we recommend

that the crystal be mounted as closely as possible to the

package. Avoid routing digital signals or the ICS1574B

outputs underneath or near these traces. It is also desirable

to ground the crystal can to the ground plane, if possible.

If an external reference frequency source is to be used with

the ICS1574B, it is important that it be jitter-free. The ris-

ing and falling edges of that signal should be fast and free

of noise for best results.

The loop phase can be locked to either the rising or falling

edges of the XTAL1 input signals, and is controlled by

Bit 56.

Power-On Initialization

The ICS1574B has an internal power-on reset circuit that

performs the following functions:

1) Selects the modulus of the PCLK divider to

be four (4).

2) Sets the multiplexer to pass the reference

frequency to PCLK divider input.

These functions should allow initialization for most appli-

cations that cannot immediately provide for register

programming upon system power-up.

Because the power-on reset circuit is on the VDD supply,

and because that supply is filtered, care must be taken to

allow the reset to de-assert before programming. A safe

guideline is to allow 20 microseconds after the VDD sup-

ply reaches 4 volts.

Programming Notes

â¢ VCO Frequency Range: Use the post-divider to keep the

VCO frequency as high as possible within its operating

range.

â¢ Divider Range: For best results in normal situations

keep the reference divider modulus as short as possible

(for a frequency at the output of the reference divider in

the few hundred kHz to several MHz range). If you

need to go to a lower phase comparator reference fre-

quency (usually required for increased frequency

accuracy), that is acceptable, but jitter performance will

suffer somewhat.

â¢ VCO Gain Programming: Use the minimum gain which

can reliably achieve the VCO frequency desired, as

shown here:

VCO GAIN

MAX FREQUENCY

100 MHz

200 MHz

300 MHz

400 MHz

â¢ Phase Detector Gain: For most applications and divider

ranges, set P [1, 0] = 10 and set P[2] = 1. Under some

circumstances, setting the P [2] bit âonâ can reduce

jitter. During operation at exact multiples of the crystal

frequency, P[2] bit = 0 may provide the best jitter per-

formance.

Board Test Support

It is often desirable to statically control the levels of the

output pins for circuit board test. The ICS1574B supports

this through a register programmable mode, AUX-EN.

When this mode is set, a register bit directly controls the

logic level of the PCLK pin. This mode is activated when

the S[0] and S[1] bits are both set to logic 1. See Register

Mapping for details.

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