cy2vc521-2 Cypress Semiconductor Corporation., cy2vc521-2 Datasheet - Page 3

cy2vc521-2

Manufacturer Part Number

cy2vc521-2

Description

Low Noise Lvds Clock Generator With Vcxo

Manufacturer

Cypress Semiconductor Corporation.

Datasheet

1.CY2VC521-2.pdf (9 pages)

Current page: 3 of 9
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Frequency Table

VCXO and VIN

The output frequency of the device is adjusted over a limited

range by use of the VCXO feature. This feature is typically used

to phase and frequency lock to a separate reference clock. The

frequency is controlled by the analog voltage on the VIN pin. The

nominal output frequency is generated when VIN = 1.65V. As the

voltage on VIN is increased, the output frequency increases. The

voltage range for VIN is from 0V (V

Application Information

Power Supply Filtering Techniques

As in any high speed analog circuitry, noise on the power supply

pins degrade device performance. For general power plane

decoupling, make certain there is at least one tantalum capacitor

(~5 to 10 μF) in the general vicinity of this device. Additionally,

ensure one or two multi-layer ceramic chip capacitors (0.01 or

0.1 μF) is located as close as possible to the power and ground

pins of the device. Make certain to optimize the layout to

minimize power and ground inductance and to locate the

capacitor as close to the device pins as possible.

Termination for LVDS Output

Use a 100Ω terminating resistor to terminate CLK and CLK# with

two parallel differential traces split near the driver; connect the

resistors between each pair near the receiver. This is shown in

the following figure.

Figure 2. LVDS Output Termination

Document Number: 001-15599 Rev. *E

CLK#

CLK

Xtal Frequency (MHz)

Z0 = 50Ω

Inputs

) to V

100Ω

PLL Multiplier Value

Crystal Input Interface

The CY2VC521-2 is designed for use with a 14 pF parallel

resonant crystal. This assumes 2 pF of board capacitance on

each crystal signal traces, plus 26 pF internally on both the XIN

and XOUT pins. The crystal is required to meet the parameters

shown in

frequency pulling function is implemented inside the PLL, there

are no additional requirements placed on the crystal for

pullability.

The design may require external trimming capacitors if the

crystal has C

VIN Control

Figure 3

CY2VC521-2. The conditions are 25°C, V

3.5 pF each. Note that the internal capacitance measured on the

XIN and XOUT pins is approximately 26 pF.

In this case the curve is not centered (0 ppm at VIN=V

because the capacitive loading on the crystal is too high, which

causes it to oscillate slower than its nominal frequency. When the

crystal is capacitively loaded as specified (C

specified frequency, and the VCXO control curve is nominally

centered. Such changes in the crystal oscillation frequency result

in a vertical shift of the curve. The slope and linearity of the curve

are independent of the crystal characteristics.

Figure 3. Typical VCXO Control Curve

=13 pF, and board capacitance on XIN and XOUT traces of

-100

-150

-200

-250

150

100

-50

shows a typical VCXO control curve for the

“Crystal Characteristics”

greater than 14 pF, depending on the layout.

0.5

Output Frequency (MHz)

1.5

VIN Voltage

216

on page 4. Because the

CY2VC521-2

2.5

), it oscillates at its

=3.3V, crystal

Page 3 of 9

3.5

/2)

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